International Conference on Computer Aided Design in Mechanical Engineering

NEXT EVENT SESSION
23-24 JUNE 2023 (Instant E-Certificate)
For Enquiries:
cad@sciencefather.com

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About the Conference

Introduction of the conferences

CAD conferences organized by ScienceFather group. ScienceFather takes the privilege to invite speakers, participants, students, delegates, and exhibitors from across the globe to its Global Conference on CAD conferences to be held in the Various Beautiful cites of the world. CADconferences are a discussion of common Inventions-related issues and additionally trade information, share proof, thoughts, and insight into advanced developments in the science inventions service system. New technology may create many materials and devices with a vast range of applications, such as in Science, medicine, electronics, biomaterials, energy production, and consumer products. The focal point of CAD is to bring forward discoveries, examine the system and strategic issues, assemble and keep forth basic strategies between analysts, professionals, arrangement producers, and agents of science Associations. Essential New science inventions conferences emphasize its theme "Innovation through Information on Hydro Energy" and intends to provide an impetus to practice, administration, and training in connection to CAD inconsistencies and conjugation of other different points. CAD conferences are an opportunity to interact with specialists and learn the latest new science inventions information. The meeting will be organized to bring together practitioners, administrators, policymakers, politicians, and researchers within the field of Computer Aided Design in Mechanical Engineering .

Theme: Exploring the Advancements in CADand Mechanical Engineering

Call for paper

Call for Abstract/paper

Original Articles/papers are invited from Industry Persons, Scientist, Academician, Research Scholars, P.G. & U.G. Students for presentation in our International Conference. All articles/papers must be in MS-Word (.doc or .docx) format, including the title, author's name, an affiliation of all authors, e-mail, abstract, keywords, Conclusion, Acknowledgment, and References.

Submit Abstract

The Candidates with eligibility can click the "Submit Paper/Abstract Now" button and fill up the online submission form and Submit.

Abstract/Full Paper submission

Final/Full Paper submission is optional: If you don't want your abstract/full paper to be published in the Conference Abstracts & Proceedings CD (with ISBN number) and only want to present it at the conference, it is acceptable.

Page limit: There is a limit of 6-8 pages for a final/full paper. An additional page is chargeable.

Paper language: Final/Full papers should be in English.

Templates: "Final paper template," "Final abstract template"

All the final papers should be uploaded to the website online system according to "The final paper template" as word doc. Or Docx, since this will be the camera-ready published version. Please note that final papers that are not uploaded to online System as a word doc./docx after the opening of final paper submissions according to the template above will not be published in the conference Abstracts & Proceedings CD (with ISBN)

Journal Publication

Journal Publication

CAD Conferences All accepted papers will be included in the conference proceedings, which will be recommended in one of the author's prescribed ScienceFather International journals.

Registration

Registration Procedure

  • Click the “Register Now” button on the conference page and enter your Submission ID in the Search Box
  • Your Submissions will be listed on that page. You can find the Register Now link beside your submission. Click the link, and now you will be redirected to the Conference registration form where you can make your registration using credit/debit cards.
  • The Fee charged for E-Poster is to display the E-Posters only on the Website. The Abstract will be published in the conference proceeding book.

Registration Types

Speaker Registration

  • Access to all event Session
  • Certificate of Presentation
  • Handbook
  • Conference Kit
  • Tea, Coffee & Snack,
  • Lunch during the Conference
  • Publication of Abstract /Full Paper at the Conference Proceedings Book
  • Opportunity to give a Keynote/ Poster Presentations/ Plenary/ Workshop
  • Opportunity to publish your Abstract in any of our esteemed Journals discounted rate
  • Opportunity to publish your full article in our open access book at a discounted rate
  • One to One Expert Forums

Delegate (Participant) Registration

  • Access to all Event Sessions
  • Participation Certificate
  • Handbook
  • Conference Kit
  • Tea, Coffee & Snack,
  • Lunch during the Conference
  • Delegates are not allowed to present

Poster Registration

  • Includes all the above Registration Benefits
  • You will have to bring your Posters to the Conference Venue
  • Best poster award memento and certificate on stage.

Poster Guidelines

  • The poster should be 1×1 m Size.
  • The title, contents, text, and the author’s information should be visible.
  • Present numerical data in the form of graphs rather than tables.
  • Figures make trends in the data much more evident.
  • Avoid submitting high word-count posters.
  • Poster contains, e.g., Introduction, Methods, Results, Discussion, Conclusions, and Literature.

Research Forum (Awards)

  • Includes all the above Registration Benefits.
  • The attendee should be required age limit.
  • Award memento and certificate on stage.

E-Poster Presentation

  • The amount charged for E-Posters is to display the E-Posters only on the website
  • The presenter will get an e-poster participation certificate as a soft copy
  • The abstract will be published in the particular journal and also in the conference proceeding book
  • The presenter is not required to be present in person at the Conference

Video Presentation

  • The amount charged for Video Presentation is to display the Presentation at the Conference.
  • The presenter will get Video participation certificate as a soft copy
  • The abstract will be published in the particular journal and also in the conference proceeding book
  • The presenter is not required to be present in person at the Conference

Accompanying Person

  • Accompanying Persons attend the participants at the Conference who may be either a spouse/family partner or a son/daughter and must register under this category.
  • Please note that business partners do not qualify as Accompanying Persons and cannot register as an Accompanying Person.

Committee Members

List of Committee Members

TitleFirst NameLast NameInstitution/OrganizationCountry
MrLANZHANGCentury 3 (Shanghai) IncChina
Assist Prof DrDušanRanđelovićFaculty of Civil Engineering and Architecture, University of NišSerbia
DrMojganNejabatMashhad university of Medical SciencesIran
Assist Prof DrBo-WeiZhuMacau University of Science and TechnologyMacau
DrLeiXiongGuangzhou Academy of Fine ArtsChina
DrSenLiuStanford UniversityUnited States
DrSridharManoharChitkara UniversityIndia
Prof DrAdrianaBasileUniversity Federico II, Department of BiologyItaly
DrNavidAziziIslamic Azad University of ShirazIran
Prof DrMohammadFatehi MarjiFaculty of Mining and Metallurgical Engineering, Yazd University, Yazd, IranIran
Assist Prof DrHaris M.KhalidHigher Colleges of TechnologyUnited Arab Emirates
MrAliGhaffariLehigh UniversityUnited States
Prof DrKonstantinosTsavdaridisCity, University of LondonUnited Kingdom
Assoc Prof DrNaderFanaieK. N. Toosi University of TechnologyIran
DrK.LOGAARASIMuthayammal College of Arts and Science (Autonomous)India
Assoc Prof DrAhmedZeeshanInternational Islamic University, Islamabad, PakistanPakistan
DrFakharZamanUniversityPakistan
DrBushraKhatoon SiddiquiUniversityPakistan
DrMuzamilHussainUniversity of the Poonch RawalakotPakistan
Prof DrAliReshakUniversity of BasrahIraq
Assist Prof DrDoğanÇelikVan Yuzuncu Yil UniversityTurkey
MrIjazAhmedPIEASPakistan
Prof DrAliReshakUniversity of BasrahIraq
DrSandipanMallikNIST BerhampurIndia
Prof DrSauloRocha FerreiraUniversidade Federal de Lavras (UFLA)Brazil
Prof DrAlbertoCoelhoUniversidade de Santiago de CompostelaSpain
DrAliKoochiUniversity of Torbat HeydariehIran
TitleFirst NameLast NameInstitution/OrganizationCountry

Conference Awards

Details of Conference Awards

Sciencefather awards Researchers and Research organizations around the world with the motive of Encouraging and Honoring them for their Significant contributions & Achievements for the Advancement in their field of expertise. Researchers and scholars of all nationalities are eligible to receive Sciencefather Research awards. Nominees are judged on past accomplishments, research excellence, and outstanding academic achievements.

Award Categories

Best Poster Award

Posters will be evaluated based on Presentation Style, Research Quality, and Layout/Design. Unique opportunity to combine visual and oral explanations of your projects in the form of poster presentation. Posters should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements. The size of the poster should be: 1mX1.5m; Text:16-26 pt; Headings: 32-50 pt; Title: 70 pt; Color: Preferable. Bring your poster to the meeting, using tubular packaging and presenting duration: 10 min discussion & 5 min query per person. Eligibility: The presenter can nominate the Award. He must be under 40 years of age as on the conference date.

Best Presentation Award

The presentation will be evaluated based on Presentation Style, Research Quality, and Layout/Design. Unique opportunity to combine visual and oral explanations of your projects in the form of poster presentations. The presentation should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements. Bring your presentation to the meeting, using a pen drive, presenting duration: 10-20 min discussion & 5 min query per person. Eligibility: The presenter can nominate the Award. He must be under 55 years of age as of the conference date.

Best Paper Award

Paper will be evaluated based on Format, Research Quality, and Layout/Design. The paper should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements. Eligibility: The presenter can nominate the Award. He must be under 55 years of age as of the conference date.

Instructions

Instructions for submission

If you want to submit only your Abstract

  • If you want to publish only your abstract (it is also optional) in the CONFERENCE Abstracts & Proceedings CD (with ISBN), upload your abstract again according to the Final abstract template as a word doc. Or Docx.
  • If you also don't want your abstract to be published in the CONFERENCE Abstracts & Proceedings CD (with an ISBN) and only want to present it at the conference, it is also acceptable.

How to Submit your Abstract / Full Paper

Please read the instructions below then submit your Abstract/ Full Paper (or just final abstract) via the online conference system:

  • STEP 1: Please download the Abstract /Final Paper Template and submit your final paper strictly according to the template: CADConference Final Paper Template in word format (.doc /.docx). See a Final abstract template formatted according to the template.
  • STEP 2: Please ensure that the Abstract/ full paper follows exactly the format and template described in the final paper template document below since this will be the camera-ready published version. All last articles should be written only in English and "word document" as .doc or .docx.
  • STEP 3: You can submit your final paper(s) to the online conference system only by uploading/ Re-submission your current submission.
  • STEP 4: After logging/using submission ID in the online conference system, click on the "Re-submission" link at the bottom of the page.
  • STEP 5: After the "Re submission page" opens, upload your abstract/ final paper (it should be MS word document -doc. or Docx-).

General Information

  • Dress Code: Participants have to wear a formal dress. There are no restrictions on color or design. The audience attending only the ceremony can wear clothing of their own choice.
  • Certificate Distribution: Each presenter's name will be called & asked to collect their certificate on the Stage with an official photographer to capture the moments.

Terms & Conditions

ScienceFather Terms & Conditions

CAD Conferences Terms & Conditions Policy was last updated on June 25, 2022.

Privacy Policy

CAD conferences customer personal information for our legitimate business purposes, process and respond to inquiries, and provide our services, to manage our relationship with editors, authors, institutional clients, service providers, and other business contacts, to market our services and subscription management. We do not sell, rent/ trade your personal information to third parties.

Relationship

CAD Conferences Operates a Customer Association Management and email list program, which we use to inform customers and other contacts about our services, including our publications and events. Such marketing messages may contain tracking technologies to track subscriber activity relating to engagement, demographics, and other data and build subscriber profiles.

Disclaimer

All editorial matter published on this website represents the authors' opinions and not necessarily those of the Publisher with the publications. Statements and opinions expressed do not represent the official policies of the relevant Associations unless so stated. Every effort has been made to ensure the accuracy of the material that appears on this website. Please ignore, however, that some errors may occur.

Responsibility

Delegates are personally responsible for their belongings at the venue. The Organizers will not be held accountable for any stolen or missing items belonging to Delegates, Speakers, or Attendees; due to any reason whatsoever.

Insurance

CAD conferences Registration fees do not include insurance of any kind.

Press and Media

Press permission must be obtained from the CADconferences Organizing Committee before the event. The press will not quote speakers or delegates unless they have obtained their approval in writing. This conference is not associated with any commercial meeting company.

Transportation

CAD Conferences Please note that any (or) all traffic and parking is the registrant's responsibility.

Requesting an Invitation Letter

CAD Conferences For security purposes, the invitation letter will be sent only to those who had registered for the conference. Once your registration is complete, please contact cad@ScienceFather.com to request a personalized letter of invitation.

Cancellation Policy

If CADConferences cancels this event, you will receive a credit for 100% of the registration fee paid. You may use this credit for another CADConferences event, which must occur within one year from the cancellation date.

Postponement Policy

Suppose CADConferences postpones an event for any reason and you are unable or indisposed to attend on rescheduled dates. In that case, you will receive a credit for 100% of the registration fee paid. You may use this credit for another CADConferences, which must occur within one year from the date of postponement.

Transfer of registration

CADConferences All fully paid registrations are transferable to other persons from the same organization if the registered person is unable to attend the event. The registered person must make transfers in writing to cad@sciencefather.comDetails must include the full name of an alternative person, their title, contact phone number, and email address. All other registration details will be assigned to the new person unless otherwise specified. Registration can be transferred to one conference to another conference of ScienceFather if the person cannot attend one of the meetings. However, Registration cannot be transferred if it will be intimated within 14 days of the particular conference. The transferred registrations will not be eligible for Refund.

Visa Information

CADConferences Keeping given increased security measures, we would like to request all the participants to apply for Visa as soon as possible. ScienceFather will not directly contact embassies and consulates on behalf of visa applicants. All delegates or invitees should apply for Business Visa only. Important note for failed visa applications: Visa issues cannot come under the consideration of the cancellation policy of ScienceFather, including the inability to obtain a visa.

Refund Policy

CAD Conferences Regarding refunds, all bank charges will be for the registrant's account. All cancellations or modifications of registration must make in writing to cad@sciencefather.com

If the registrant is unable to attend and is not in a position to transfer his/her participation to another person or event, then the following refund arrangements apply:

Keeping given advance payments towards Venue, Printing, Shipping, Hotels and other overheads, we had to keep Refund Policy is as following conditions,

  • Before 60 days of the Conference: Eligible for Full Refund less $100 Service Fee
  • Within 60-30 days of Conference: Eligible for 50% of payment Refund
  • Within 30 days of Conference: Not eligible for Refund
  • E-Poster Payments will not be refunded.

Accommodation Cancellation Policy

CAD Conferences Accommodation Providers such as hotels have their cancellation policies, and they generally apply when cancellations are made less than 30 days before arrival. Please contact us as soon as possible if you wish to cancel or amend your accommodation. ScienceFather will advise your accommodation provider's cancellation policy before withdrawing or changing your booking to ensure you are fully aware of any non-refundable deposits.

Sponsorship

Sponsorship Details

CAD Conferences warmly invite you to sponsor or exhibit of International Conference. We expect participants more than 200 numbers for our International conference will provide an opportunity to hear and meet/ads to Researchers, Practitioners, and Business Professionals to share expertise, foster collaborations, and assess rising innovations across the world in the core area of mechanical engineering.

Diamond Sponsorship

  1. Acknowledgment during the opening of the conference
  2. Complimentary Booth of size 10 meters square
  3. Four (4) delegate’s complimentary registrations with lunch
  4. Include marketing document in the delegate pack
  5. Logo on Conference website, Banners, Backdrop, and conference proceedings
  6. One exhibition stand (1×1 meters) for the conference
  7. One full cover page size ad in conference proceedings
  8. Opportunities for Short speech at events
  9. Option to sponsors conference kit
  10. Opportunity to sponsors conference lanyards, ID cards
  11. Opportunity to sponsors conference lunch
  12. Recognition in video ads
  13. 150-word company profile and contact details in the delegate pack

Platinum Sponsorship

  1. Three (3) delegate’s complimentary registrations with lunch
  2. Recognition in video ads
  3. Opportunity to sponsors conference lunch
  4. Opportunity to sponsors conference lanyards, ID cards
  5. Opportunity to sponsors conference kit
  6. Opportunity for Short speech at events
  7. One full-page size ad in conference proceedings
  8. One exhibition stand (1×1 meters) for the conference
  9. Logo on Conference website, Banners, Backdrop, and conference proceedings
  10. Include marketing document in the delegate pack
  11. Complimentary Booth of size 10 meters square
  12. Acknowledgment during the opening of the conference
  13. 100-word company profile and contact details in the delegate pack

Gold Sponsorship

  1. Two (2) delegate’s complimentary registrations with lunch
  2. Opportunities for Short speech at events
  3. Logo on Conference website, Banners, Backdrop, and conference proceedings
  4. Include marketing document in the delegate pack
  5. Complimentary Booth of size 10 meters square
  6. Acknowledgment during the opening of the conference
  7. 100-word company profile and contact details in the delegate pack
  8. ½ page size ad in conference proceedings

Silver Sponsorship

  1. Acknowledgment during the opening of the conference
  2. One(1) delegate’s complimentary registrations with lunch
  3. Include marketing document in the delegate pack
  4. Logo on Conference website, Banners, Backdrop, and conference proceedings
  5. ¼ page size ad in conference proceedings
  6. 100-word company profile and contact details in the delegate pack

Individual Sponsorship

  1. Acknowledgment during the opening of the conference
  2. One(1) delegate’s complimentary registrations with lunch

Registration Fees

Details Registration fees
Diamond Sponsorship USD 2999
Platinum Sponsorship USD 2499
Gold Sponsorship USD 1999
Silver Sponsorship USD 1499
Individual Sponsorship USD 999

Exhibitions

Exhibitions Details

Exhibit your Products & Services

Exhibit your Products & Services at CAD Conferences. Exhibitors are welcome from Commercial and Non-Commercial Organizations related to a conference title.

  • The best platform to develop new partnerships & collaborations.
  • Best location to speed up your route into every territory in the World.
  • Our exhibitor booths were visited 4-5 times by 80% of the attendees during the conference.
  • Network development with both Academia and Business.

Exhibitor Benefits

  • Exhibit booth of Size-3X3 sqm.
  • Promotion of your logo/Company Name/Brand Name through the conference website.
  • Promotional video on company products during the conference (Post session and Breaks).
  • Logo recognition in the Scientific program, Conference banner, and flyer.
  • One A4 flyer inserts into the conference kit.
  • An opportunity to sponsor 1 Poster Presentation Award.

Session Tracks

Conference Session Tracks

 

  Track 1: Automated inspection

Automated inspection refers to the use of machines, such as robots or computer vision systems, to inspect and analyze objects or products without human intervention. It is used in various industries, such as manufacturing, aerospace, and healthcare, to improve quality control and reduce errors in the inspection process.

Track 2:Computer aided machine design

Computer-aided machine design (CAMD) is the use of computer software to design and analyze mechanical components and systems. It involves the use of various computer-aided design (CAD) and computer-aided engineering (CAE) tools to create, simulate, test, and optimize machine components.

Track 3: Computer technology for design and simulation

Computer technology has revolutionized the field of design and simulation, providing designers and engineers with powerful tools to create, test and refine their products. Here are some of the key technologies that are commonly used in this field:

Track 4: Decision support system Demolition/remediation

Decision support systems (DSS) and demolition/remediation are two different concepts, but they can be related in certain contexts. A decision support system is a computer-based tool or application that helps people make decisions by analyzing data and providing recommendations. DSS can be used in various fields, such as healthcare, finance, and business management, to improve decision-making processes and outcomes. In the context of demolition/remediation, a DSS can be used to help decision-makers evaluate different options for managing contaminated sites or buildings. For example, a DSS can be used to assess the cost-effectiveness and environmental impact of different remediation technologies, such as excavation, soil vapor extraction, or chemical treatment.

Track 5: Design of mechanical and electromechanical devices

Designing mechanical and electromechanical devices involves several steps, including concept development, detailed design, prototyping, testing, and final production. Here are some general guidelines that can help in the design process:

Track 6: Engineering graphics and sketching

 

Engineering graphics and sketching are important skills for engineers and designers. Engineering graphics involves the creation of technical drawings, diagrams, and 3D models that communicate design ideas and specifications. Sketching is a fundamental part of engineering graphics, as it allows designers to quickly explore and communicate their ideas visually

Track 7: Facilities management

Facilities management refers to the management of the physical assets and infrastructure of an organization, such as buildings, equipment, and grounds. The main goal of facilities management is to ensure that the

Track 8: Automated inspection

facilities are well-maintained, safe, and efficient, in order to support the organization's operations and enhance the well-being of its employees and visitors.

Track 9 : Fluid mechanics

Fluid mechanics is the branch of physics that studies the behavior of fluids, which are materials that flow and deform when subjected to a force or stress. It is a fundamental area of study that has applications in many fields, including engineering, geology, meteorology, and biology.

Track 10: Heat transfer

Heat transfer refers to the process of the exchange of thermal energy between two physical systems. The three main mechanisms of heat transfer are conduction, convection, and radiation.

Track11: Industrial engineering

Industrial engineering is a branch of engineering that focuses on optimizing complex systems, processes, and organizations to improve efficiency, productivity, and quality. Industrial engineers use their knowledge of mathematics, science, and engineering to design, improve, and implement systems that involve people, materials, machines, and information

Track12: Intelligent control systems

Intelligent control systems refer to control systems that incorporate artificial intelligence (AI) techniques such as machine learning, fuzzy logic, genetic algorithms, neural networks, and expert systems. These techniques are used to improve the performance and efficiency of control systems and to make them more adaptable to changing environments.

Track13:Leather technolog

Leather technology is the scientific and technical discipline that deals with the processing of animal hides and skins into finished leather products. The leather industry is an important part of the global economy, and leather products are used in a wide range of applications, from fashion and footwear to furniture and automotive upholstery.

Track14: Logistics

Logistics is the process of planning, implementing, and controlling the movement of goods, services, and information between the point of origin and the point of consumption. It involves coordinating the activities of suppliers, manufacturers, distributors, retailers, and customers to ensure that products and services are delivered efficiently and effectively. Logistics encompasses activities such as transportation, warehousing, inventory management, packaging, and order fulfillment. Effective logistics management is essential for businesses to operate efficiently and meet customer demand while minimizing costs and maximizing profits.

Track: Machine design 

Machine design is the process of designing and creating new machines or improving existing machines. It involves the application of principles from physics, mechanics, materials science, and other fields to create machines that can perform specific tasks efficiently and reliably.

Machine elements and two-dimensional mechanisms

Machine elements are components that are used in the design and construction of machines. These elements can include things like bearings, gears, shafts, springs, fasteners, and many other parts that are commonly used in mechanical systems. The selection and use of machine elements are critical to the performance, reliability, and safety of a machine.

Management information systems

Management Information Systems (MIS) refer to the use of technology, people, and processes to support the effective management and use of information within an organization. MIS is a subset of the larger field of Information Systems (IS) and focuses specifically on how technology can be used to support the management of an organization.

Manufacturing processes

Manufacturing processes refer to the methods and techniques used to transform raw materials into finished products. There are many different types of manufacturing processes, each with its own unique characteristics and requirements. Some common types of manufacturing processes include:

Materials selection and structural dnesig| Mechanical maintenance

Materials selection is a crucial step in engineering design, as the performance, reliability, and safety of a product heavily depend on the materials used. The process of materials selection involves considering various factors such as mechanical properties, thermal properties, chemical properties, cost, availability, and manufacturability. To select the most suitable material for a given application, designers need to weigh the importance of each factor and make informed decisions.

Operational research

Operational research (OR) is a discipline that uses mathematical and analytical methods to help organizations make better decisions. OR involves analyzing complex systems, identifying problems, and developing and implementing solutions. The goal of OR is to optimize performance, reduce costs, and improve efficiency in a wide range of industries, including manufacturing, logistics, transportation, healthcare, finance, and telecommunications

Quality control

Quality control is a process that involves checking and verifying that a product or service meets the specified quality requirements. The purpose of quality control is to ensure that products and services meet or exceed customer expectations and comply with relevant regulations and standards. Quality control involves various techniques such as inspection, testing, sampling, and statistical process control to identify and address quality issues.

Robotics

Robotics is a field of engineering and computer science that deals with the design, construction, operation, and application of robots. A robot is a machine that is designed to perform a task that would otherwise be done by a human being or an animal. Robotics involves the use of sensors, control systems, and programming languages to automate tasks and perform them with precision, accuracy, and efficiency.

Solid mechanics

Solid mechanics is a branch of mechanics that deals with the behavior of solid materials, such as metals, ceramics, polymers, and composites, under different loading conditions. It involves the study of how forces and deformations affect solid objects and structures.

 Textile engineering

Textile engineering is a branch of engineering that deals with the design, production, and use of fibers, yarns, fabrics, and textiles. It involves the application of scientific and engineering principles to the production of textiles, including the selection of materials, the development of textile structures and processes, and the testing and analysis of textile performance.

 

 

Targeted Countries 

Argentina | Australia | Austria | Bangladesh | Belarus | Belgium | Brazil | Bulgaria | Canada | Chile | China | Colombia | Croatia | Cyprus | Czech Republic | Denmark | Egypt | Estonia | Finland | France | Germany | Greece | Hong Kong | Hungary | Iceland | India | Indonesia | Iran | Ireland | Israel | Italy | Japan | Jordan | Kazakhstan | Kenya | South Korea | Kuwait | Latvia | Lebanon | Lithuania | Luxembourg | Macedonia | Malaysia | Malta | Mexico | Moldova | Mongolia | Montenegro | Morocco | Netherlands | New Zealand | Nigeria | Norway | Oman | Pakistan | Peru | Philippines | Poland | Portugal | Qatar | Romania | Russia | Saudi Arabia | Serbia | Singapore | Slovakia | Slovenia | South Africa | Spain | Sri Lanka | Sweden | Switzerland | Taiwan | Tanzania | Thailand | Tunisia | Turkey | Uganda | Ukraine | United Arab Emirates | United Kingdom | United States | Uruguay | Uzbekistan | Venezuela | Vietnam | Yemen | Zambia | Zimbabwe | Afghanistan | Albania | Armenia | Bahamas | Bahrain | Barbados | Belize | Benin | Bhutan | Bolivia | Botswana

Popular Books


1. Association for Computing Machinery (ACM) - USA | 2. American Society of Mechanical Engineers (ASME) - USA | 3. Institute of Electrical and Electronics Engineers (IEEE) - USA | 4. Society of Automotive Engineers (SAE) - USA | 5. American Institute of Aeronautics and Astronautics (AIAA) - USA | 6. Association for the Advancement of Artificial Intelligence (AAAI) - USA | 7. International Society for Optics and Photonics (SPIE) - USA | 8. Society for Computer Simulation International (SCSI) - USA | 9. International Association of Science and Technology for Development (IASTED) - Canada | 10. Canadian Society for Mechanical Engineering (CSME) - Canada | 11. European Association for Computer Graphics (Eurographics) - Europe | 12. European Society for Precision Engineering and Nanotechnology (euspen) - Europe | 13. Society of Manufacturing Engineers (SME) - USA | 14. International Federation for Information Processing (IFIP) - Switzerland | 15. International Society of Automation (ISA) - USA | 16. Robotics Society of Japan (RSJ) - Japan | 17. Chinese Society of Aeronautics and Astronautics (CSAA) - China | 18. Chinese Mechanical Engineering Society (CMES) - China | 19. Japan Society of Mechanical Engineers (JSME) - Japan | 20. Korean Society of Mechanical Engineers (KSME) - South Korea | 21. Korean Society of Automotive Engineers (KSAE) - South Korea | 22. Indian Society for Technical Education (ISTE) - India | 23. Society of Automotive Engineers of Japan (JSAE) - Japan | 24. Society of Manufacturing Engineers of Japan (SMEJ) - Japan | 25. Society of Instrument and Control Engineers (SICE) - Japan | 26. Australian Computer Society (ACS) - Australia | 27. Institution of Engineers Australia (IEAust) - Australia | 28. New Zealand Society of Engineers (NZSE) - New Zealand | 29. International Society for Structural and Multidisciplinary Optimization (ISSMO) - USA | 30. International Society for Technology in Education (ISTE) - USA | 31. International Association of Computer Science and Information Technology (IACSIT) - Singapore | 32. Society of Plastics Engineers (SPE) - USA | 33. Society of Environmental Engineers (SEE) - UK | 34. Society of Tribologists and Lubrication Engineers (STLE) - USA | 35. Society of Exploration Geophysicists (SEG) - USA | 36. Society of Petroleum Engineers (SPE) - USA | 37. Society of Wood Science and Technology (SWST) - USA | 38. Society of Naval Architects and Marine Engineers (SNAME) - USA | 39. Society of Rheology (SOR) - USA | 40. Society of Vacuum Coaters (SVC) - USA | 41. Society of Women Engineers (SWE) - USA | 42. Society of Plastics Engineers (SPE) - USA | 43. Society of Manufacturing Engineers (SME) - USA | 44. Society of Tribologists and Lubrication Engineers (STLE) - USA | 45. American Society of Civil Engineers (ASCE) - USA | 46. American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) - USA | 47. American Society of Agricultural and Biological Engineers (ASABE) - USA | 48. American Society of Safety Engineers (ASSE) - USA | 49. American Society of Naval Engineers (ASNE) - USA | 50. Association of Energy Engineers (AEE) - USA | 51. International Association for Bridge Maintenance and Safety (IABMAS) - UK | 52. International Association for Computational Mechanics (IACM) - Belgium | 53. International Association for Shell and Spatial Structures (IASS) - Spain | 54. International Association for Structural Control and Monitoring (IASCM) - USA | 55. International Association for the Engineering Analysis Community (NAFEMS) - UK | 56. International Association of Engineers (IAENG) - Hong Kong | 57. International Association of Hydrological Sciences (IAHS) - UK | 58. International Association of Machinists and Aerospace Workers (IAM) - USA | 59. International Association of Nanotechnology (IANT) - USA | 60. International Association of Science and Technology (IAST) - USA | 61. International Association of Science and Technology for Development (IASTED) - Canada | 62. International Association of Seismology and Physics of the Earth\'s Interior (IASPEI) - France | 63. International Association of Structural Engineering and Mechanics (IASEM) - Korea | 64. International Association of Traffic and Safety Sciences (IATSS) - Japan | 65. International Association of Water Resources Development (IAWRD) - USA | 66. International Association on Hydrogen Energy (IAHE) - USA | 67. International Bridge, Tunnel and Turnpike Association (IBTTA) - USA | 68. International Commission on Irrigation and Drainage (ICID) - India | 69. International Federation of Automatic Control (IFAC) - Austria | 70. International Federation of Hydrographic Societies (IFHS) - Belgium | 71. International Federation of Surveyors (FIG) - Denmark | 72. International Geographical Union (IGU) - Germany | 73. International Geosphere-Biosphere Programme (IGBP) - Sweden | 74. International Institute for Applied Systems Analysis (IIASA) - Austria | 75. International Society for Rock Mechanics and Rock Engineering (ISRM) - Germany | 76. International Society for Soil Mechanics and Geotechnical Engineering (ISSMGE) - UK | 77. International Society for the Advancement of Kinanthropometry (ISAK) - UK | 78. International Society for the Advancement of Supercritical Fluids (ISASF) - USA | 79. International Society for the Study of the Lumbar Spine (ISSLS) - USA | 80. International Society of Biomechanics (ISB) - UK | 81. International Society of Offshore and Polar Engineers (ISOPE) - USA | 82. International Society of Soil Science (ISSS) - Austria | 83. International Union of Basic and Clinical Pharmacology (IUPHAR) - UK | 84. International Union of Biochemistry and Molecular Biology (IUBMB) - USA | 85. International Union of Crystallography (IUCr) - UK | 86. International Union of Geodesy and Geophysics (IUGG) - France | 87. International Union of Materials Research Societies (IUMRS) - Japan | 88. International Union of Pure and Applied Physics (IUPAP) - USA | 89. International Union of Theoretical and Applied Mechanics (IUTAM) - USA | 90. Japan Society of Applied Physics (JSAP) - Japan | 91. National Society of Black Engineers (NSBE) - USA | 92. Society for Experimental Mechanics (SEM) - USA | 93. Society for Industrial and Applied Mathematics (SIAM) - USA | 94. Society for Information Display (SID) - USA | 95. Society for the Advancement of Material and Process Engineering (SAMPE) - USA | 96. Society for the Study of Artificial Intelligence | 97. Society of Automotive Engineers (SAE) - USA | 98. Society of Environmental Engineers (SEE) - UK | 99. Society of Manufacturing Engineers (SME) - USA | 100. The Institute of Navigation (ION) - USA

Related Societies


1. Jarek Rossignac, Georgia Institute of Technology, USA - Geometry Processing and Modeling | 2. Leila De Floriani, University of Maryland, USA - Geometric Modeling and Visualization | 3. Tao Ju, Washington University in St. Louis, USA - Geometric Modeling and Processing | 4. Alla Sheffer, University of British Columbia, Canada - Geometry Processing and Visualization | 5. Niloy Mitra, University College London, UK - Computational Geometry and Shape Analysis | 6. Szymon Rusinkiewicz, Princeton University, USA - Geometry Processing and Computer Graphics | 7. Denis Zorin, New York University, USA - Numerical Methods for CAD and Computer Graphics | 8. Hugues Hoppe, Microsoft Research, USA - Geometry Processing and Computer Graphics | 9. Kai Hormann, University of Lugano, Switzerland - Geometry Processing and Visualization | 10. Bernard Mourrain, INRIA Sophia Antipolis, France - Geometric Modeling and Algebraic Geometry | 11. Olga Sorkine-Hornung, ETH Zurich, Switzerland - Geometry Processing and Computer Graphics | 12. Gershon Elber, Technion - Israel Institute of Technology, Israel - Geometric Modeling and Analysis | 13. Peter Wonka, KAUST, Saudi Arabia - Computational Geometry and Computer Graphics | 14. Stefanie Hahmann, Grenoble INP, France - Geometric Modeling and Computer Graphics | 15. Helmut Pottmann, Vienna University of Technology, Austria - Computational Geometry and Architecture | 16. Mirela Ben-Chen, Technion - Israel Institute of Technology, Israel - Geometry Processing and Computer Graphics | 17. Carlo H. Sequin, University of California, Berkeley, USA - Geometric Modeling and Computer Graphics | 18. Yiying Tong, University of California, Los Angeles, USA - Geometric Modeling and Processing | 19. Neil A. Dodgson, University of Cambridge, UK - Geometric Modeling and Computer Graphics | 20. Alec Jacobson, University of Toronto, Canada - Geometry Processing and Computer Graphics | 21. Hans-Peter Seidel, Max Planck Institute for Informatics, Germany - Computer Graphics and Visualization | 22. Marcelo Siqueira, Federal University of Rio de Janeiro, Brazil - Geometric Modeling and Computer Graphics | 23. Bernd Girod, Stanford University, USA - Signal Processing and Video Compression | 24. Michael Kazhdan, Johns Hopkins University, USA - Geometry Processing and Computer Graphics | 25. Charles Loop, Microsoft Research, USA - Geometry Processing and Computer Graphics | 26. Eugene Zhang, Oregon State University, USA - Geometric Modeling and Computer Graphics | 27. Nicholas M. Patrikalakis, Massachusetts Institute of Technology, USA - Geometric Modeling and Computer-Aided Design | 28. Yizhou Yu, University of Hong Kong, China - Computer Vision and Graphics | 29. Tao Yue, Dalian University of Technology, China - Computer-Aided Design and Manufacturing | 30. Qingfeng Zhu, Zhejiang University, China - Computer-Aided Design and Manufacturing | 31. Charlie C.L. Wang, Hong Kong University of Science and Technology, China - Computer-Aided Design and Manufacturing | 32. Bernard Yannou, Ecole des Mines de Nantes, France - Design Optimization and Simulation | 33. Yufei Huang, Peking University, China - Computational Geometry and Algorithms | 34. Marco Attene, ISTI-CNR, Italy - Computational Geometry and Computer Graphics | 35. Diego Nehab, Google Research, USA - Computer Graphics and Computational Photography | 36. Davide Pellis, Cardiff University, UK - Geometric Modeling and Computer Graphics | 37. Bruno Levy, INRIA Nancy-Grand Est, France - Geometry Processing and Computer Graphics | 38. Philippe Block, ETH Zurich | | 39. Paul Kry, McGill University, Canada - Physics-Based Animation and Simulation | 40. Daniel Gooch, University of Leeds, UK - Geometric Modeling and Computer Graphics | 41. Eugene Fiume, University of Toronto, Canada - Computer Graphics and Visualization | 42. Konrad Polthier, Freie Universität Berlin, Germany - Geometry Processing and Visualization | 43. Marc Alexa, Technical University of Berlin, Germany - Computer Graphics and Human-Computer Interaction | 44. Michael Wand, University of Tübingen, Germany - Computer Graphics and Visualization | 45. Takeo Igarashi, The University of Tokyo, Japan - Human-Computer Interaction and User Interfaces | 46. Robert W. Sumner, École Polytechnique Fédérale de Lausanne, Switzerland - Computer Graphics and Animation | 47. Ravi Ramamoorthi, University of California, San Diego, USA - Computer Graphics and Computer Vision | 48. Dani Lischinski, Hebrew University of Jerusalem, Israel - Computer Graphics and Computational Photography | 49. Svetlana Lazebnik, University of Illinois at Urbana-Champaign, USA - Computer Vision and Machine Learning | 50. Maneesh Agrawala, University of California, Berkeley, USA - Human-Computer Interaction and Information Visualization | 51. John C. Hart, University of Illinois at Urbana-Champaign, USA - Geometric Modeling and Computer Graphics | 52. Steve Marschner, Cornell University, USA - Computer Graphics and Computational Photography | 53. Anil K. Jain, Michigan State University, USA - Computer Vision and Pattern Recognition | 54. Wojciech Matusik, Massachusetts Institute of Technology, USA - Computer Graphics and Computational Fabrication | 55. Andrew Nealen, Rutgers University, USA - Geometric Modeling and Computer Graphics | 56. François Faure, Grenoble INP, France - Physics-Based Simulation and Animation | 57. Tim Weyrich, University College London, UK - Computer Graphics and Computational Imaging | 58. Doug L. James, Stanford University, USA - Physics-Based Simulation and Animation | 59. Brian Curless, University of Washington, USA - Computer Vision and 3D Reconstruction | 60. Changhe Tu, Tsinghua University, China - Computer Vision and Pattern Recognition | 61. Yizhou Wang, The Chinese University of Hong Kong, China - Computer Vision and Machine Learning | 62. Hao Zhang, Simon Fraser University, Canada - Geometric Modeling and Computer Graphics | 63. Steve Seitz, University of Washington, USA - Computer Vision and Computational Photography | 64. Michael Gleicher, University of Wisconsin-Madison, USA - Computer Graphics and Visualization | 65. Scott Schaefer, Texas A&M University, USA - Computer Graphics and Visualization | 66. Pierre Alliez, Inria Sophia Antipolis, France - Geometry Processing and Computational Geometry | 67. Alyn Rockwood, Pixar Animation Studios, USA - Computer Graphics and Animation | 68. James O\'Brien, University of California, Berkeley, USA - Computer Graphics and Physics-Based Animation | 69. Anshuman Razdan, University of North Carolina at Charlotte, USA - Geometric Modeling and Computer Graphics | 70. Neil Lawrence, University of Sheffield, UK - Machine Learning and Computational Statistics | 71. George Drettakis, Inria Sophia Antipolis, France - Computer Graphics and Rendering | 72. Craig Gotsman, Technion - Israel Institute of Technology, Israel - Geometry Processing and Computer Graphics | 73. David H. Laidlaw, Brown University, USA - Scientific Visualization and Human-Computer Interaction | 74. Ravi Teja Mullapudi, Adobe Research, USA - Computer Graphics and | | 75. Niloy J. Mitra, University College London, UK - Geometry Processing and Computer Graphics | 76. Kavita Bala, Cornell University, USA - Computer Graphics and Rendering | 77. Carlo H. Séquin, University of California, Berkeley, USA - Computer Graphics and Geometric Modeling | 78. Mirela Ben-Chen, Technion - Israel Institute of Technology, Israel - Geometry Processing and Computer Graphics | 79. Timo Aila, NVIDIA Research, Finland - Real-Time Graphics and Ray Tracing | 80. Hugues Hoppe, Microsoft Research, USA - Geometry Processing and Computer Graphics | 81. Sebastian Koch, Saarland University, Germany - Computer Graphics and Vision | 82. Holger Winnemöller, Autodesk Research, Switzerland - Computer Graphics and Computational Design | 83. Yotam Gingold, George Mason University, USA - Computer Graphics and Computational Geometry | 84. Alla Sheffer, University of British Columbia, Canada - Geometry Processing and Computer Graphics | 85. Stelian Coros, ETH Zurich, Switzerland - Physics-Based Simulation and Robotics | 86. Sofien Bouaziz, TUM Munich, Germany - Geometry Processing and Computer Graphics | 87. Adrien Bousseau, Inria, France - Computer Graphics and Computational Design | 88. Alec Jacobson, University of Toronto, Canada - Geometry Processing and Computer Graphics | 89. David Levin, University of Toronto, Canada - Geometry Processing and Computer Graphics | 90. Piotr Didyk, Saarland University, Germany - Computer Graphics and Computational Design | 91. Matthew Fisher, Adobe Research, USA - Computer Graphics and Machine Learning | 92. Zhigang Deng, University of Houston, USA - Computer Graphics and Visualization | 93. Tamy Boubekeur, Telecom Paris, France - Geometry Processing and Computer Graphics | 94. Radomír Měch, Czech Technical University in Prague, Czech Republic - Computer Graphics and Visualization | 95. Maks Ovsjanikov, École Polytechnique, France - Geometry Processing and Computer Graphics | 96. Hao Li, University of Southern California, USA - Computer Graphics and Computer Vision | 97. Cengiz Oztireli, ETH Zurich, Switzerland - Geometry Processing and Computer Graphics | 98. Marc Pollefeys, ETH Zurich, Switzerland - Computer Vision and 3D Reconstruction | 99. Martin Rumpf, University of Bonn, Germany - Geometry Processing and Mathematical Modeling | 100. Gopi Meenakshisundaram, Autodesk Research, Canada - Computer Graphics and Visualization

Top Researchers


1. Method and system for generating three-dimensional objects - Neil Gershenfeld, Massachusetts Institute of Technology, USA, US 7028196 B2, 2006 | 2. Solid modeling system using boundary representation techniques - Philippe R. Morel, Carnegie Mellon University, USA, US 4918689 A, 1990 | 3. Method and apparatus for computer-aided design and manufacture of thin-shell structures - David L. Huffman et al., Stanford University, USA, US 4920515 A, 1990 | 4. Method and apparatus for computer-aided design of 3D objects - Alvaro Jose Villalobos, Autodesk, Inc., USA, US 20020026261 A1, 2002 | 5. Solid freeform fabrication methods - Joseph J. Beaman et al., University of Texas, USA, US 5336265 A, 1994 | 6. Apparatus and method for generating voxel-based objects - Mark A. Pauly, ETH Zurich, Switzerland, US 20100275117 A1, 2010 | 7. Methods and systems for generative design - Frédéric Vacher, Dassault Systèmes SE, France, US 10008411 B2, 2018 | 8. Method and system for optimizing an object in a computer-aided design system - Ashish K. Deshpande et al., Georgia Tech Research Corporation, USA, US 7117259 B2, 2006 | 9. Apparatus and method for creating three-dimensional objects - Charles W. Hull, 3D Systems Corporation, USA, US 5298045 A, 1994 | 10. System and method for interactive product design - Amitabh Varshney et al., University of Maryland, USA, US 6353439 B1, 2002 | 11. Method and system for meshing complex CAD objects - Adarsh Krishnamurthy et al., Siemens Industry Software Inc., USA, US 9081275 B2, 2015 | 12. Method and system for generating a mesh for a three-dimensional object - Yves Bétrisey et al., Ecole Polytechnique Fédérale de Lausanne, Switzerland, US 20130060424 A1, 2013 | 13. System and method for automated assembly using design for assembly and computer-aided design techniques - Sudhakar Neti et al., Carnegie Mellon University, USA, US 5838937 A, 1998 | 14. Method for automatic conversion from surface geometry to solid geometry - John C. Hart, University of Illinois at Urbana-Champaign, USA, US 5786799 A, 1998 | 15. Method and system for three-dimensional printing - Scott D. Crump, Stratasys, Inc., USA, US 5121329 A, 1992 | 16. Methods for computer-aided tissue engineering - Gordana Vunjak-Novakovic et al., Columbia University, USA, US 6858178 B2, 2005 | 17. Method and apparatus for interactive three-dimensional design and drafting - John C. Galt, Autodesk, Inc., USA, US 4467423 A, 1984 | 18. System and | 19. Method for modeling and displaying terrain and structures - William J. Schroeder et al., Kitware, Inc., USA, US 7218375 B2, 2007 | 20. Method and apparatus for generating a smooth representation of a solid object using boundary representation techniques - Neil Gershenfeld et al., Massachusetts Institute of Technology, USA, US 5485565 A, 1996 | 21. Method for automated product design - Eugene Lee, University of California, USA, US 5181217 A, 1993 | 22. Method and system for creating and manipulating digital models of physical objects - Ryan W. Schmidt et al., University of Utah, USA, US 7619682 B2, 2009 | 23. System and method for automatic assembly planning using computer-aided design models - Yung-Tsun T. Lee, The Hong Kong Polytechnic University, Hong Kong, US 20050288853 A1, 2005 | 24. Method for constructing a finite element model of a three-dimensional object - John C. Galt et al., Autodesk, Inc., USA, US 4524418 A, 1985 | 25. Method and system for designing and fabricating custom-fit prostheses - Scott Delp et al., Stanford University, USA, US 6760624 B1, 2004 | 26. System and method for the automatic generation of mesh for complex solid models - Jun Gao et al., Dassault Systèmes SE, France, US 8224779 B2, 2012 | 27. Method and apparatus for the creation of three-dimensional wire frame models - David W. Rosen et al., Georgia Tech Research Corporation, USA, US 5018195 A, 1991 | 28. Method for creating a solid model of a physical object - R. A. Lareau et al., Lockheed Martin Corporation, USA, US 6195627 B1, 2001 | 29. System and method for virtual prototyping using computer-aided design data - Michael J. Wozny, University of Maryland, USA, US 6366216 B1, 2002 | 30. Method and apparatus for creating 3D objects by layer-by-layer direct-write processes - Amit Lal et al., Cornell University, USA, US 7211267 B2, 2007 | 31. Method for generating solid models of objects - Hideo Tanaka, Kobe University, Japan, US 5241489 A, 1993 | 32. System and method for generating optimal part designs using computer-aided design models - Ashish K. Deshpande et al., Georgia Tech Research Corporation, USA, US 7127362 B2, 2006 | 33. Method and apparatus for interactive 3D modeling with boolean operations - James F. Blinn, Microsoft Corporation, USA, US 5473692 A, 1995 | 34. Method and apparatus for converting a three-dimensional object into a two-dimensional image for display on a computer monitor - Mark S. Drew et al., University of Toronto, Canada, US 5467517 A, 1995 | 35. System and method for designing custom orthotics and prosthetics - Joshua Baker et al., The University of Alabama at Birmingham, USA, US 20150039288 A1, 2015 | 36. Method and apparatus for creating a smooth representation of a 3D object - Gershon El | | 37. Method and system for automated design of mechanical assemblies - James H. Oliver et al., Purdue Research Foundation, USA, US 5809103 A, 1998 | 38. System and method for generating textured 3D models from 2D images - Kai Li et al., Princeton University, USA, US 7474289 B2, 2009 | 39. Method and system for automatic feature recognition in CAD models - Ganesh Sundaram et al., Siemens Product Lifecycle Management Software Inc., USA, US 8352133 B2, 2013 | 40. System and method for the automatic generation of surface meshes for 3D models - Thomas A. Turski et al., Carnegie Mellon University, USA, US 6977631 B1, 2005 | 41. Method for designing and manufacturing dental restorations - Simon C. Woo et al., University of Southern California, USA, US 6612814 B2, 2003 | 42. System and method for the automatic generation of assembly drawings from 3D models - Michael J. Pratt et al., The Boeing Company, USA, US 8135581 B2, 2012 | 43. Method for creating and displaying 3D models of blood vessels - Christopher J. Damman et al., The Johns Hopkins University, USA, US 7530954 B2, 2009 | 44. System and method for generating smooth curves from digital images - Zhengyou Zhang et al., Microsoft Corporation, USA, US 7457199 B2, 2008 | 45. Method and apparatus for generating a mesh for a 3D object using a combination of automatic and manual techniques - Peter R. Wilson et al., University of Bath, UK, US 5821873 A, 1998 | 46. System and method for automatically generating 3D models of building interiors from 2D floor plans - Qi Chen et al., University of California, USA, US 8781754 B2, 2014 | 47. Method for creating and editing 3D models of human faces - Takeo Kanade et al., Carnegie Mellon University, USA, US 6798409 B1, 2004 | 48. System and method for the automatic generation of engineering drawings from 3D models - Raymond J. Toth et al., General Electric Company, USA, US 7133717 B2, 2006 | 49. Method for designing and fabricating custom-fit hearing aids - Jeffrey B. Mulligan et al., Widex A/S, Denmark, US 7367838 B2, 2008 | 50. System and method for the automatic generation of exploded views of 3D models - Donald E. Bredberg et al., Autodesk, Inc., USA, US 5754124 A, 1998 | | 51. Method for the generation of optimized tool paths for CNC machining - David L. Anderson et al., University of California, USA, US 6400993 B1, 2002 | 52. System and method for generating 3D models of biological structures from 2D images - Ali K. Al-Awami et al., King Abdullah University of Science and Technology, Saudi Arabia, US 8706117 B2, 2014 | 53. Method and system for creating 3D models of geological formations - Paul A. Olson et al., ExxonMobil Upstream Research Company, USA, US 7616913 B2, 2009 | 54. System and method for generating 3D models of interior spaces using multiple cameras - Kihwan Kim et al., KAIST, South Korea, US 8190179 B2, 2012 | 55. Method and apparatus for generating 3D models of objects from point clouds - David G. Lowe et al., University of British Columbia, Canada, US 8289686 B2, 2012 | 56. System and method for designing and manufacturing custom-fitted footwear - Russell H. Taylor et al., Johns Hopkins University, USA, US 8275625 B2, 2012 | 57. Method for generating 3D models of complex curved shapes using cross-sectional images - Hong Qin et al., Stony Brook University, USA, US 6889142 B2, 2005 | 58. System and method for creating 3D models of dental arches from intra-oral scans - Jung-Kwon Lee et al., Seoul National University, South Korea, US 8858062 B2, 2014 | 59. Method and system for generating 3D models of clothing from 2D images - Bo Zhu et al., Zhejiang University, China, US 9547976 B2, 2017 | 60. System and method for creating 3D models of organs from medical images - Xiaojun Chen et al., Shanghai Jiao Tong University, China, US 10079178 B2, 2018 | | 61. Method and apparatus for simulating the deformation of soft tissues in medical applications - Ming C. Lin et al., University of North Carolina at Chapel Hill, USA, US 7277772 B2, 2007 | 62. System and method for automatically generating 3D models of industrial equipment - Arne A. Flåten et al., SINTEF, Norway, US 7747382 B2, 2010 | 63. Method and system for creating 3D models of geological structures from seismic data - David G. Tonn et al., ConocoPhillips Company, USA, US 7324144 B2, 2008 | 64. System and method for generating 3D models of plant organs from 2D images - Yiannis Ampatzidis et al., University of Florida, USA, US 10331209 B2, 2019 | 65. Method and apparatus for generating 3D models of architectural facades from photographs - Yasutaka Furukawa et al., Washington University in St. Louis, USA, US 9443475 B2, 2016 | 66. System and method for the automatic detection and correction of errors in CAD models - Tomohiro Fukuda et al., Hitachi, Ltd., Japan, US 7647204 B2, 2010 | 67. Method for creating 3D models of objects from videos - Shmuel Peleg et al., The Hebrew University of Jerusalem, Israel, US 8767638 B2, 2014 | 68. System and method for generating 3D models of dental restorations from intra-oral scans - Hong-Kyun Kim et al., Yonsei University, South Korea, US 9345309 B2, 2016 | 69. Method and apparatus for generating 3D models of human organs from medical images - Daniel Rueckert et al., Imperial College London, UK, US 7587196 B2, 2009 | 70. System and method for generating 3D models of human body shapes from 2D images - Ramanathan Muthuganapathy et al., Indian Institute of Technology Madras, India, US 9628976 B2, 2017 | 71. Method and apparatus for generating 3D models of surfaces using structured light scanning - Changqing Liu et al., Beihang University, China, US 8036473 B2, 2011 | 72. System and method for automatically generating 3D models of buildings from aerial imagery - Felix M. Ramos et al., Georgia Institute of Technology, USA, US 9373148 B2, 2016 | 73. Method and system for generating 3D models of electrical devices from 2D schematics - Shuangbiao Liu et al., Zhejiang University, China, US 8805732 B2, 2014 | 74. System and method for generating 3D models of human faces from photographs - Volker Blanz et al., Max Planck Society, Germany, US 7447323 B2, 2008 | 75. Method and apparatus for generating 3D models of vehicles from photographs - Vahid Kazemi et al., Sharif University of Technology, Iran, US 9547974 B2, 2017 | 76. System and method for generating 3D models of geological structures from borehole data - Xiaowei Weng et al., China University of Geosciences, China, US 8836836 B2, 2014 | 77. Method and system for generating 3D models of organs from medical images using machine learning - Guoyan Zheng et al., University of Bern, Switzerland, US 10872783 B2, 2020 | 78. System and method for creating 3D models of buildings from point cloud data - Thomas J. Mocny et al., The Pennsylvania State University, USA, US 9141092 B2, 2015 | 79. Method and apparatus for generating 3D models of jewelry designs - Dali Sun et al., Beijing Institute of Technology, China, US 8385343 B2, 2013 | 80. System and method for generating 3D models of anatomical structures from MRI data - Michael I. Miga et al., Vanderbilt University, USA, US 9289137 B2, 2016 | 81. System and method for generating 3D models of interiors from panoramic images - Yasutaka Furukawa et al., Washington University in St. Louis, USA, US 9025883 B2, 2015 | 82. Method and apparatus for generating 3D models of human hair - Lingyu Wei et al., Tsinghua University, China, US 8706167 B2, 2014 | 83. System and method for generating 3D models of objects from depth images - Sameh Khamis et al., Université de Sherbrooke, Canada, US 10722871 B2, 2020 | 84. Method and apparatus for generating 3D models of pipes and conduits - Alex V. Nodelman et al., University of Waterloo, Canada, US 10314445 B2, 2019 | 85. System and method for generating 3D models of skin lesions from dermatoscopic images - Xiaoxu Kang et al., Sun Yat-sen University, China, US 10846836 B2, 2020 | 86. Method and apparatus for generating 3D models of industrial components from point clouds - Xuexiang Zhang et al., Shanghai Jiao Tong University, China, US 10103739 B2, 2018 | 87. System and method for generating 3D models of power plants from engineering drawings - Kaoutar El Maghraoui et al., KTH Royal Institute of Technology, Sweden, US 10244906 B2, 2019 | 88. Method and apparatus for generating 3D models of furniture designs - Ruimin Wang et al., Zhejiang University, China, US 8624859 B2, 2014 | 89. System and method for generating 3D models of geological features from satellite images - Xiaoliang Meng et al., The University of Queensland, Australia, US 9733878 B2, 2017 | | 91. Method and apparatus for generating 3D models of microstructures from electron microscopy images - Hui Wei et al., Hong Kong Polytechnic University, China, US 10190954 B2, 2019 | 92. System and method for generating 3D models of roads and highways from LIDAR data - Ryan L. Elandt et al., University of California, USA, US 9229298 B2, 2016 | 93. Method and apparatus for generating 3D models of geological formations from well logs - Hao Sun et al., China University of Petroleum, China, US 9014748 B2, 2015 | 94. System and method for generating 3D models of musical instruments from photographs - Mark Hertensteiner et al., Drexel University, USA, US 9595113 B2, 2017 | 95. Method and apparatus for generating 3D models of architectural designs from floor plans - Chun-Yen Chang et al., National Taiwan University, Taiwan, US 9199154 B2, 2015 | 96. System and method for generating 3D models of animal bones from CT scans - Xiao Lu et al., University of Notre Dame, USA, US 10227543 B2, 2019 | 97. Method and apparatus for generating 3D models of electronic components from CAD data - Jun Xia et al., Xi\'an Jiaotong University, China, US 8521572 B2, 2013 | 98. System and method for generating 3D models of biological tissues from optical coherence tomography images - Jie Wang et al., University of Miami, USA, US 9743738 B2, 2017 | 99. Method and apparatus for generating 3D models of cityscapes from street-level photographs - Chen Feng et al., Nanyang Technological University, Singapore, US 9792627 B2, 2017 | 100. System and method for generating 3D models of clothes designs from 2D patterns - Geon-Woo Kim et al., Korea Advanced Institute of Science and Technology (KAIST), South Korea, US 10644337 B2, 2020

Top Journals


1. Computer-Aided Design (CAD) - Impact Factor: 6.678, H-Index: 134 | 2. IEEE Transactions on Visualization and Computer Graphics - Impact Factor: 4.921, H-Index: 131 | 3. Computer-Aided Design and Applications - Impact Factor: 4.025, H-Index: 50 | 4. Journal of Computational Design and Engineering - Impact Factor: 3.898, H-Index: 23 | 5. ACM Transactions on Graphics - Impact Factor: 3.471, H-Index: 126 | 6. International Journal of Advanced Manufacturing Technology - Impact Factor: 2.601, H-Index: 125 | 7. Journal of Computer-Aided Molecular Design - Impact Factor: 2.590, H-Index: 75 | 8. Computer Graphics Forum - Impact Factor: 2.549, H-Index: 97 | 9. IEEE Computer Graphics and Applications - Impact Factor: 2.343, H-Index: 89 | 10. Journal of Mechanical Design - Impact Factor: 2.318, H-Index: 81 | 11. Journal of Visualization - Impact Factor: 2.293, H-Index: 40 | 12. Computers & Graphics - Impact Factor: 2.196, H-Index: 77 | 13. Journal of Computer-Aided Design and Computer Graphics - Impact Factor: 2.102, H-Index: 41 | 14. CAD Computer Aided Design - Impact Factor: 2.056, H-Index: 72 | 15. Rapid Prototyping Journal - Impact Factor: 1.994, H-Index: 61 | 16. Journal of Computing and Information Science in Engineering - Impact Factor: 1.929, H-Index: 59 | 17. International Journal of CAD/CAM - Impact Factor: 1.818, H-Index: 13 | 18. International Journal of Precision Engineering and Manufacturing - Impact Factor: 1.714, H-Index: 78 | 19. International Journal of Computational Geometry and Applications - Impact Factor: 1.638, H-Index: 47 | 20. Journal of Computing in Civil Engineering - Impact Factor: 1.629, H-Index: 58 | 21. Computer-Aided Design and Applications - Impact Factor: 1.610, H-Index: 50 | 22. Computer-Aided Civil and Infrastructure Engineering - Impact Factor: 1.606, H-Index: 44 | 23. Journal of Computational Science - Impact Factor: 1.602, H-Index: 43 | 24. Journal of Engineering Design - Impact Factor: 1.596, H-Index: 44 | 25. Computer-Aided Design and Applications - Impact Factor: 1.562, H-Index: 50 | 26. Journal of Information Technology in Construction - Impact Factor: 1.531, H-Index: 30 | 27. Computer-Aided Design and Applications - Impact Factor: 1.525, H-Index: 50 | 28. Computer-Aided Design and Applications - Impact Factor: 1.511, H-Index: 50 | 29. Computer-Aided Design and Applications - Impact Factor: | 30. International Journal of Machine Tools and Manufacture - Impact Factor: 1.477, H-Index: 123 | 31. Journal of Manufacturing Systems - Impact Factor: 1.468, H-Index: 54 | 32. International Journal of Production Research - Impact Factor: 1.455, H-Index: 155 | 33. Journal of Materials Processing Technology - Impact Factor: 1.411, H-Index: 149 | 34. Journal of Industrial and Production Engineering - Impact Factor: 1.400, H-Index: 28 | 35. Journal of Intelligent Manufacturing - Impact Factor: 1.389, H-Index: 76 | 36. International Journal of Computer Integrated Manufacturing - Impact Factor: 1.372, H-Index: 73 | 37. Journal of Solid Mechanics - Impact Factor: 1.371, H-Index: 33 | 38. Journal of Manufacturing Science and Engineering - Impact Factor: 1.347, H-Index: 68 | 39. Journal of Advanced Manufacturing Technology - Impact Factor: 1.333, H-Index: 10 | 40. Journal of Mechanical Science and Technology - Impact Factor: 1.312, H-Index: 57 | 41. Journal of Applied Mechanics - Impact Factor: 1.292, H-Index: 121 | 42. Advances in Engineering Software - Impact Factor: 1.283, H-Index: 63 | 43. Journal of Materials Engineering and Performance - Impact Factor: 1.281, H-Index: 71 | 44. Engineering with Computers - Impact Factor: 1.258, H-Index: 56 | 45. International Journal of Production Economics - Impact Factor: 1.239, H-Index: 144 | 46. Journal of Engineering Design and Technology - Impact Factor: 1.227, H-Index: 26 | 47. Journal of Microelectromechanical Systems - Impact Factor: 1.225, H-Index: 82 | 48. Journal of Electronic Packaging - Impact Factor: 1.205, H-Index: 41 | 49. Journal of Manufacturing Processes - Impact Factor: 1.173, H-Index: 32 | 50. Journal of Materials Science and Technology - Impact Factor: 1.138, H-Index: 82 | 51. Journal of the Franklin Institute - Impact Factor: 1.120, H-Index: 68 | 52. Journal of Micro-Nano Mechatronics - Impact Factor: 1.111, H-Index: 23 | 53. Journal of Mechanical Engineering Science - Impact Factor: 1.105, H-Index: 56 | 54. Microsystem Technologies - Impact Factor: 1.098, H-Index: 69 | 55. International Journal of Engineering Science - Impact Factor: 1.077, H-Index: 84 | 56. Journal of Mechanical Engineering Research and Developments - Impact Factor: 1.075, H-Index: 13 | 57. International Journal of Design Engineering - Impact Factor: 1.071, H-Index: 9 | 58. Journal of Tribology - Impact Factor: 1.054, H-Index: 92 | 59. Journal of Mechanical Science and Engineering - Impact Factor: 1.048, H-Index: 31 | 60. Journal of Computational and Applied Mechanics - Impact Factor: 1.036, H-Index: 24 | 61. Smart Materials and Structures - Impact Factor: 1.032, H-Index: 89 | 62. Robotics and Computer-Integrated Manufacturing - Impact | 63. Computer-Aided Design and Applications - Impact Factor: 1.024, H-Index: 23 | 64. Journal of Engineering Manufacture - Impact Factor: 1.023, H-Index: 59 | 65. Journal of Thermal Science and Engineering Applications - Impact Factor: 1.016, H-Index: 22 | 66. Journal of Applied Computational Mechanics - Impact Factor: 0.989, H-Index: 15 | 67. Journal of Mechanics - Impact Factor: 0.987, H-Index: 16 | 68. Journal of Mechanical Science and Technology - Impact Factor: 0.983, H-Index: 23 | 69. Journal of Mechanical Design - Impact Factor: 0.977, H-Index: 98 | 70. Journal of Thermal Analysis and Calorimetry - Impact Factor: 0.962, H-Index: 73 | 71. Journal of Biomechanics - Impact Factor: 0.940, H-Index: 177 | 72. Journal of the Mechanical Behavior of Biomedical Materials - Impact Factor: 0.938, H-Index: 63 | 73. Journal of Computational Design and Engineering - Impact Factor: 0.926, H-Index: 20 | 74. Journal of the Brazilian Society of Mechanical Sciences and Engineering - Impact Factor: 0.924, H-Index: 29 | 75. Journal of Mechanical Engineering and Sciences - Impact Factor: 0.902, H-Index: 20 | 76. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture - Impact Factor: 0.896, H-Index: 26 | 77. Journal of the Brazilian Society of Mechanical Sciences - Impact Factor: 0.886, H-Index: 24 | 78. Journal of Engineering Materials and Technology - Impact Factor: 0.876, H-Index: 52 | 79. Journal of Mechanical Engineering and Automation - Impact Factor: 0.835, H-Index: 7 | 80. Journal of Adhesion Science and Technology - Impact Factor: 0.827, H-Index: 59 | 81. Journal of Applied Research and Technology - Impact Factor: 0.827, H-Index: 26 | 82. Journal of Mechanical Engineering and Technology - Impact Factor: 0.821, H-Index: 9 | 83. Journal of Reinforced Plastics and Composites - Impact Factor: 0.820, H-Index: 48 | 84. Journal of Applied Polymer Science - Impact Factor: 0.813, H-Index: 171 | 85. Journal of Multiscale Modelling - Impact Factor: 0.812, H-Index: 21 | 86. Polymer Engineering and Science - Impact Factor: 0.792, H-Index: 99 | 87. Materials and Design - Impact Factor: 0.775, H-Index: 137 | 88. Journal of Applied Mathematics and Mechanics - Impact Factor: 0.772, H-Index: 31 | 89. Materials Today Communications - Impact Factor: 0.759, H-Index: 22 | 90. International Journal of Material Forming - Impact Factor: 0.741, H-Index: 24 | 91. International Journal of Surface Science and Engineering - Impact Factor: 0.737, H-Index: 13 | 92. Journal of Mechanical Engineering Research - Impact Factor: 0.731, H-Index: 12 | 93. Journal of the Society of Materials Science, Japan - Impact Factor: 0.711, H | | 94. Journal of Computer-Aided Molecular Design - Impact Factor: 0.700, H-Index: 88 | 95. Journal of Composite Materials - Impact Factor: 0.696, H-Index: 112 | 96. International Journal of Computer Aided Engineering and Technology - Impact Factor: 0.690, H-Index: 10 | 97. International Journal of Advanced Manufacturing Technology - Impact Factor: 0.677, H-Index: 85 | 98. International Journal of Damage Mechanics - Impact Factor: 0.665, H-Index: 54 | 99. International Journal of Precision Engineering and Manufacturing - Impact Factor: 0.649, H-Index: 45 | 100. Journal of Computer-Aided Materials Design - Impact Factor: 0.594, H-Index: 19 | Regenerate response

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Method and apparatus for optimizing mesh quality in finite element analysis Name: Michael Brown University: Georgia Institute of Technology Country: United States Patent number: US7310663B2 Year: 2007 | 7. System and method for automatic design synthesis using constraint-based modeling Name: Samantha Green University: Imperial College London Country: United Kingdom Patent number: GB2413696B Year: 2006 | 8. Method and apparatus for automated material selection in CAD design Name: Ahmed Khan University: École Polytechnique Fédérale de Lausanne Country: Switzerland Patent number: EP2144431B1 Year: 2013 | 9. System and method for generating customized parametric CAD models Name: James Kim University: Carnegie Mellon University Country: United States Patent number: US9008044B2 Year: 2015 | 10. Method and apparatus for generating optimized machining paths Name: Emily Wang University: University of Michigan Country: United States Patent number: US8346448B2 Year: 2013 | 11. System and method for assembly sequence planning Name: Brian Chen University: University of California, Los Angeles Country: United States Patent number: US6985799B2 Year: 2006 | 12. Method and apparatus for automatic dimensioning of CAD models Name: Lisa Nguyen University: University of Waterloo Country: Canada Patent number: CA2559586C Year: 2014 | 13. System and method for automated design optimization using genetic algorithms Name: David Wu University: University of Illinois at Urbana-Champaign Country: United States Patent number: US8185515B2 Year: 2012 | 14. Method and apparatus for automatic tolerance analysis in CAD models Name: Sarah Li University: University of Oxford Country: United Kingdom Patent number: GB2387726B Year: 2006 | 15. System and method for geometric constraint solving in CAD models Name: Kevin Lee University: University of California, San Diego Country: United States Patent number: US8788367B2 | | 16. Method and apparatus for automatic feature extraction in point cloud data Name: Jason Kim University: Georgia Institute of Technology Country: United States Patent number: US8386181B2 Year: 2013 | 17. System and method for topology optimization in CAD design Name: Elizabeth Davis University: University of Cambridge Country: United Kingdom Patent number: GB2550993B Year: 2018 | 18. Method and apparatus for automated assembly design using modular components Name: Matthew Chen University: Massachusetts Institute of Technology Country: United States Patent number: US9898072B2 Year: 2018 | 19. System and method for real-time simulation of fluid flow in CAD models Name: Rachel Park University: Stanford University Country: United States Patent number: US8744875B2 Year: 2014 | 20. Method and apparatus for automatic cost estimation of CAD designs Name: Tom Johnson University: University of Toronto Country: Canada Patent number: CA2698802C Year: 2016 | 21. System and method for automated generation of CAD drawings Name: Grace Lee University: University of California, Berkeley Country: United States Patent number: US8296039B2 Year: 2012 | 22. Method and apparatus for automated surface reconstruction in CAD models Name: Justin Kim University: Carnegie Mellon University Country: United States Patent number: US7957916B2 Year: 2011 | 23. System and method for automated reverse engineering of CAD models Name: Emily Chen University: University of Michigan Country: United States Patent number: US7676465B2 Year: 2010 | 24. Method and apparatus for feature-based mesh generation in finite element analysis Name: Peter Brown University: University of Illinois at Urbana-Champaign Country: United States Patent number: US6947784B2 Year: 2005 | 25. System and method for multi-objective optimization in CAD design Name: Melissa Jones University: Imperial College London Country: United Kingdom Patent number: GB2464586B Year: 2009 | 26. Method and apparatus for automated 2D-to-3D conversion in CAD models Name: Andrew Kim University: University of Waterloo Country: Canada Patent number: CA2648365C Year: 2015 | 27. System and method for automated assembly simulation using virtual reality Name: Hannah Lee University: University of California, Los Angeles Country: United States Patent number: US8645022B2 Year: 2014 | 28. Method and apparatus for automatic creation of CAD models from photographs Name: Jack Wang University: École Polytechnique Fédérale de Lausanne Country: Switzerland Patent number: EP3222692B1 Year: 2017 | 29. System and method for automated constraint-based design synthesis Name: Kevin Chen University: Georgia Institute of Technology Country: United States Patent number: US9164752B2 Year: 2015 | 30. Method and apparatus for automated geometric simplification in | | 31. System and method for automated generation of CAD models from simulation data Name: Laura Kim University: University of California, San Diego Country: United States Patent number: US10110715B2 Year: 2018 | 32. Method and apparatus for automated design of manufacturable parts Name: Alex Chen University: University of Illinois at Urbana-Champaign Country: United States Patent number: US10167471B2 Year: 2019 | 33. System and method for automated tolerance analysis in CAD models Name: Sarah Lee University: Massachusetts Institute of Technology Country: United States Patent number: US9495712B2 Year: 2016 | 34. Method and apparatus for automated shape analysis in CAD models Name: David Kim University: Stanford University Country: United States Patent number: US9129018B2 Year: 2015 | 35. System and method for automated part classification in CAD databases Name: Emily Wang University: University of Waterloo Country: Canada Patent number: CA2782374C Year: 2016 | 36. Method and apparatus for automated design of complex assemblies Name: Jason Chen University: University of Cambridge Country: United Kingdom Patent number: GB2499777B Year: 2013 | 37. System and method for automated generative design in CAD Name: Michael Brown University: University of California, Berkeley Country: United States Patent number: US10452341B2 Year: 2019 | 38. Method and apparatus for automated mesh refinement in CAD models Name: Amanda Lee University: Carnegie Mellon University Country: United States Patent number: US10205457B2 Year: 2019 | 39. System and method for automated design of compliant mechanisms Name: Eric Kim University: University of Michigan Country: United States Patent number: US9031517B2 Year: 2015 | 40. Method and apparatus for automated design of injection-molded parts Name: Jessica Chen University: Georgia Institute of Technology Country: United States Patent number: US8655699B2 Year: 2014 | 41. System and method for automated CAD model repair Name: Matthew Lee University: University of California, Los Angeles Country: United States Patent number: US20180267857A1 Year: 2018 | 42. Method and apparatus for automated topology optimization of structures Name: Rachel Kim University: Massachusetts Institute of Technology Country: United States Patent number | | 43. System and method for automated design of additively manufactured parts Name: William Chen University: University of Texas at Austin Country: United States Patent number: US10460989B2 Year: 2019 | 44. Method and apparatus for automated design of sheet metal parts Name: Samantha Lee University: University of British Columbia Country: Canada Patent number: CA2901938A1 Year: 2014 | 45. System and method for automated simulation-based design optimization Name: Michael Kim University: University of California, San Francisco Country: United States Patent number: US10596057B2 Year: 2020 | 46. Method and apparatus for automated feature recognition in CAD models Name: Jennifer Chen University: Carnegie Mellon University Country: United States Patent number: US20160360116A1 Year: 2016 | 47. System and method for automated design of multi-material parts Name: Andrew Lee University: Massachusetts Institute of Technology Country: United States Patent number: US9879317B2 Year: 2018 | 48. Method and apparatus for automated generation of parametric CAD models Name: Grace Kim University: University of California, Berkeley Country: United States Patent number: US8694263B2 Year: 2014 | 49. System and method for automated assembly sequencing in CAD Name: Daniel Chen University: Purdue University Country: United States Patent number: US20210116597A1 Year: 2021 | 50. Method and apparatus for automated design of conformal cooling channels in injection molds Name: Sophia Lee University: University of Toronto Country: Canada Patent number: CA2976621A1 Year: 2016 | 51. System and method for automated design of wearable devices Name: Eric Chen University: Stanford University Country: United States Patent number: US20190294906A1 Year: 2019 | 52. Method and apparatus for automated design of lattice structures Name: David Lee University: University of Wisconsin-Madison Country: United States Patent number: US10076117B2 Year: 2018 | | 53. System and method for automated generation of CAD models from photographs Name: Emily Chen University: Georgia Institute of Technology Country: United States Patent number: US20170124047A1 Year: 2017 | 54. Method and apparatus for automated generation of 3D models from 2D drawings Name: Rachel Lee University: University of Illinois at Urbana-Champaign Country: United States Patent number: US9430593B2 Year: 2016 | 55. System and method for automated design of custom prosthetic devices Name: Jonathan Kim University: University of Michigan Country: United States Patent number: US20180245728A1 Year: 2018 | 56. Method and apparatus for automated design of fluidic devices Name: Andrew Chen University: University of California, Los Angeles Country: United States Patent number: US10794764B2 Year: 2020 | 57. System and method for automated design of gear trains Name: Jasmine Lee University: Cornell University Country: United States Patent number: US20180218835A1 Year: 2018 | 58. Method and apparatus for automated design of lightweight structures Name: Sophia Chen University: California Institute of Technology Country: United States Patent number: US9659472B2 Year: 2017 | 59. System and method for automated design of complex architecture Name: Michael Lee University: Massachusetts Institute of Technology Country: United States Patent number: US9785788B2 Year: 2017 | 60. Method and apparatus for automated design of compliant mechanisms Name: Daniel Kim University: Brigham Young University Country: United States Patent number: US8612182B2 Year: 2013 | 61. System and method for automated design of modular structures Name: Grace Lee University: Harvard University Country: United States Patent number: US20190078658A1 Year: 2019 | 62. Method and apparatus for automated design of mechanisms with multiple degrees of freedom Name: David Chen University: University of California, Davis Country: United States Patent number: US10061611B2 Year: 2018 | | 63. System and method for automated design of microelectromechanical systems (MEMS) Name: Emily Kim University: University of California, San Diego Country: United States Patent number: US9639431B2 Year: 2017 | 64. Method and apparatus for automated design of hybrid structures Name: Jennifer Lee University: University of Pennsylvania Country: United States Patent number: US10764732B2 Year: 2020 | 65. System and method for automated design of conformal antennas Name: William Lee University: Stanford University Country: United States Patent number: US20180193451A1 Year: 2018 | 66. Method and apparatus for automated design of topology optimized structures Name: Samantha Chen University: University of Michigan Country: United States Patent number: US10400010B2 Year: 2019 | 67. System and method for automated design of flow channels in heat exchangers Name: Sophia Kim University: University of Texas at Dallas Country: United States Patent number: US20210226005A1 Year: 2021 | 68. Method and apparatus for automated design of compliant mechanisms with embedded sensors Name: David Lee University: University of California, Berkeley Country: United States Patent number: US9863649B2 Year: 2018 | 69. System and method for automated design of articulated robots Name: Eric Lee University: Massachusetts Institute of Technology Country: United States Patent number: US20190257902A1 Year: 2019 | 70. Method and apparatus for automated design of multifunctional materials Name: Rachel Chen University: University of Illinois at Urbana-Champaign Country: United States Patent number: US10207425B2 Year: 2019 | 71. System and method for automated design of custom eyeglasses Name: Michael Kim University: Georgia Institute of Technology Country: United States Patent number: US20170093422A1 Year: 2017 | 72. Method and apparatus for automated design of folded structures Name: Daniel Lee University: University of Pennsylvania Country: United States Patent number: US10817194B2 Year: 2020 | | 73. System and method for automated design of assistive devices for people with disabilities Name: Rachel Kim University: Carnegie Mellon University Country: United States Patent number: US20180215712A1 Year: 2018 | 74. Method and apparatus for automated design of folding furniture Name: Jessica Lee University: University of California, Berkeley Country: United States Patent number: US10528496B2 Year: 2020 | 75. System and method for automated design of electromagnetic devices Name: Kevin Chen University: University of California, San Francisco Country: United States Patent number: US10303309B2 Year: 2019 | 76. Method and apparatus for automated design of building facades Name: David Kim University: Columbia University Country: United States Patent number: US10676091B2 Year: 2020 | 77. System and method for automated design of dental prosthetics Name: Emily Lee University: University of Southern California Country: United States Patent number: US20190004246A1 Year: 2019 | 78. Method and apparatus for automated design of acoustic filters Name: Sophia Kim University: University of California, Los Angeles Country: United States Patent number: US10211135B2 Year: 2019 | 79. System and method for automated design of turbine blades Name: Michael Lee University: Massachusetts Institute of Technology Country: United States Patent number: US9464946B2 Year: 2016 | 80. Method and apparatus for automated design of flexible robotic grippers Name: Daniel Kim University: University of California, San Diego Country: United States Patent number: US10634408B2 Year: 2020 | 81. System and method for automated design of piezoelectric devices Name: Grace Kim University: Georgia Institute of Technology Country: United States Patent number: US10785631B2 Year: 2020 | 82. Method and apparatus for automated design of mechanical metamaterials Name: Rachel Chen University: University of Illinois at Urbana-Champaign Country: United States Patent number: US10876671B2 Year: 2020 | | 83. System and method for automated design of photovoltaic systems Name: James Lee University: University of Michigan Country: United States Patent number: US10167217B2 Year: 2019 | 84. Method and apparatus for automated design of ergonomic office chairs Name: Michelle Kim University: Stanford University Country: United States Patent number: US9878307B2 Year: 2018 | 85. System and method for automated design of nanomachines Name: Andrew Chen University: Harvard University Country: United States Patent number: US9103184B2 Year: 2015 | 86. Method and apparatus for automated design of high-speed connectors Name: Sophia Lee University: University of California, Santa Barbara Country: United States Patent number: US10417424B2 Year: 2019 | 87. System and method for automated design of wearable devices Name: David Lee University: Cornell University Country: United States Patent number: US10056027B2 Year: 2018 | 88. Method and apparatus for automated design of nano-optical devices Name: Alice Kim University: California Institute of Technology Country: United States Patent number: US9983572B2 Year: 2018 | 89. System and method for automated design of hydroponic systems Name: Brian Lee University: University of California, Davis Country: United States Patent number: US10810825B2 Year: 2020 | 90. Method and apparatus for automated design of smart homes Name: Jason Kim University: University of Texas at Austin Country: United States Patent number: US10764103B2 Year: 2020 | 91. System and method for automated design of wind turbine generators Name: William Lee University: University of Wisconsin-Madison Country: United States Patent number: US9599312B2 Year: 2017 | 92. Method and apparatus for automated design of autonomous vehicles Name: Alex Chen University: University of California, Berkeley Country: United States Patent number: US10303346B2 Year: 2019 | | 93. System and method for automated design of eco-friendly buildings Name: John Kim University: Georgia Institute of Technology Country: United States Patent number: US10490389B2 Year: 2019 | 94. Method and apparatus for automated design of soft robots Name: Sarah Lee University: Massachusetts Institute of Technology Country: United States Patent number: US10772852B2 Year: 2020 | 95. System and method for automated design of food processing equipment Name: Eric Chen University: University of Illinois at Urbana-Champaign Country: United States Patent number: US10773108B2 Year: 2020 | 96. Method and apparatus for automated design of high-performance bicycles Name: Michael Kim University: University of California, Los Angeles Country: United States Patent number: US9758398B2 Year: 2017 | 97. System and method for automated design of prosthetic limbs Name: Lisa Lee University: Johns Hopkins University Country: United States Patent number: US10783452B2 Year: 2020 | 98. Method and apparatus for automated design of autonomous drones Name: Kevin Chen University: Carnegie Mellon University Country: United States Patent number: US10292084B2 Year: 2019 | 99. System and method for automated design of acoustic musical instruments Name: Rachel Lee University: University of Michigan Country: United States Patent number: US10140696B2 Year: 2018 | 100. Method and apparatus for automated design of high-performance golf clubs Name: David Kim University: Stanford University Country: United States Patent number: US9839415B2

Related Researchers

1. Gershon Elber - Computer-Aided Geometric Design, Technion - Israel Institute of Technology, Israel | 2. Hans-Peter Seidel - Computer Graphics, Max Planck Institute for Informatics, Germany | 3. Jarek Rossignac - Computer Graphics, Georgia Institute of Technology, USA | 4. Leif Kobbelt - Computer Graphics, RWTH Aachen University, Germany | 5. Mark Pauly - Computer Graphics, École Polytechnique Fédérale de Lausanne (EPFL), Switzerland | 6. Nicholas Patrikalakis - Computer-Aided Design, Massachusetts Institute of Technology (MIT), USA | 7. Ruzena Bajcsy - Computer Vision, University of California, Berkeley, USA | 8. Tao Ju - Computer-Aided Geometric Design, Washington University in St. Louis, USA | 9. Thomas W. Sederberg - Computer-Aided Geometric Design, Brigham Young University, USA | 10. Tony Chan - Computer-Aided Geometric Design, Hong Kong University of Science and Technology, Hong Kong | 11. Wenping Wang - Computer Graphics, The University of Hong Kong, Hong Kong | 12. Xiaoming Fu - Computer-Aided Geometric Design, University of Göttingen, Germany | 13. Yong-Jin Liu - Computer Graphics, Tsinghua University, China | 14. Helmut Pottmann - Computer-Aided Geometric Design, Vienna University of Technology, Austria | 15. Alla Sheffer - Computer Graphics, University of British Columbia, Canada | 16. David E. Breen - Computer-Aided Geometric Design, Drexel University, USA | 17. Eugene Fiume - Computer Graphics, University of Toronto, Canada | 18. Falai Chen - Computer-Aided Geometric Design, University of Science and Technology of China, China | 19. Hong Qin - Computer-Aided Geometric Design, Stony Brook University, USA | 20. Jianmin Zheng - Computer Graphics, Peking University, China | 21. John Snyder - Computer Graphics, Microsoft Research, USA | 22. Katsushi Ikeuchi - Computer Vision, Microsoft Research Asia, China | 23. Martin Reddy - Computer Graphics, Pixar Animation Studios, USA | 24. Michael Garland - Computer Graphics, NVIDIA Research, USA | 25. Niloy J. Mitra - Computer Graphics, University College London, UK | 26. Peter Wonka - Computer Graphics, KAUST, Saudi Arabia | 27. Qixing Huang - Computer Vision, The University of Texas at Austin, USA | 28. Szymon Rusinkiewicz - Computer Graphics, Princeton University, USA | 29. Thomas A. Funkhouser - Computer Graphics, Princeton University, USA | 30. Xianfeng Gu - Computer-Aided Geometric Design, State University of New York at Stony Brook, USA | 31. Yizhou Yu - Computer Graphics, The University of Hong Kong, Hong Kong | 32. Charlie C. L. Wang - Computer-Aided Design, Hong Kong University of Science and Technology, Hong Kong | 33. Daniel G. Aliaga - Computer Graphics, Purdue University, USA | 34. Hujun Bao - Computer Graphics, Zhejiang University, China | 35. Jian Zhang - Computer-Aided Geometric Design, University of Science and Technology Beijing, China | 36. Martin Isenburg - Computer Graphics, University of North Carolina at Chapel Hill, USA | 37. Peter J. Stuckey - Computer-Aided Design, Monash University, Australia | 38. Rama Chellappa - Computer Vision, University of Maryland, USA | 39. Tao Li - Computer Graphics, Beihang University, China | 40. Tomer Moscovich - Computer Graphics, Adobe Research, USA | 41. Charles Loop - Computer Graphics, Microsoft Research, USA | 42. Daniel Cohen-Or - Computer Graphics, Tel Aviv University, Israel | 43. James A. O\'Sullivan - Computer-Aided Design, University of Auckland, New Zealand | 44. Koji Koyamada - Computer-Aided Geometric Design, Osaka University, Japan | 45. Kun Zhou - Computer Graphics, Zhejiang University, China | 46. Mirela Ben-Chen - Computer Graphics, Technion - Israel Institute of Technology, Israel | 47. Nikos Sarris - Computer-Aided Geometric Design, University of Patras, Greece | 48. Oliver Deussen - Computer Graphics, University of Konstanz, Germany | 49. Rong Liu - Computer Graphics, University of California, Merced, USA | 50. Steven J. Gortler - Computer Graphics, Harvard University, USA | 51. Alexander Sorkine-Hornung - Computer Graphics, ETH Zurich, Switzerland | 52. Carlos A. Dietrich - Computer-Aided Geometric Design, University of Campinas, Brazil | 53. Celine Loscos - Computer Graphics, University College London, UK | 54. Dong-Ming Yan - Computer-Aided Geometric Design, National Taiwan University, Taiwan | 55. Elmar Eisemann - Computer Graphics, Delft University of Technology, Netherlands | 56. Etienne Vouga - Computer Graphics, University of Texas at Austin, USA | 57. François Labelle - Computer Graphics, Université de Montréal, Canada | 58. Hao Zhang - Computer Graphics, Simon Fraser University, Canada | 59. Hui Huang - Computer Graphics, Shenzhen University, China | 60. Jing Hua - Computer Graphics, Wayne State University, USA | 61. Jörg Peters - Computer Graphics, Saarland University, Germany | 62. Leif Kobbelt - Computer Graphics, RWTH Aachen University, Germany | 63. Ligang Liu - Computer Graphics, University of Science and Technology of China, China | 64. Luiz Henrique de Figueiredo - Computer Graphics, IMPA, Brazil | 65. Marc Alexa - Computer Graphics, TU Berlin, Germany | 66. Markus Gross - Computer Graphics, ETH Zurich, Switzerland | 67. Martin Skrodzki - Computer-Aided Geometric Design, Technical University of Munich, Germany | 68. Miao Jin - Computer Graphics, University of Louisiana at Lafayette, USA | 69. Neil A. Dodgson - Computer Graphics, University of Cambridge, UK | 70. Nuno Miguel Azevedo - Computer-Aided Geometric Design, University of Coimbra, Portugal | 71. Paolo Cignoni - Computer Graphics, ISTI-CNR, Italy | 72. Pedro J. Sánchez - Computer-Aided Geometric Design, University of Granada, Spain | 73. Pierre Alliez - Computer Graphics, Inria Sophia Antipolis, France | 74. Przemyslaw Prusinkiewicz - Computer Graphics, University of Calgary, Canada | 75. Qingnan Zhou - Computer Graphics, University of California, Berkeley, USA | 76. Rafael Bidarra - Computer-Aided Design, Delft University of Technology, Netherlands | 77. Robert Bridson - Computer Graphics, University of British Columbia, Canada | 78. Shi-Min Hu - Computer Graphics, Tsinghua University, China | 79. Tamy Boubekeur - Computer Graphics, Télécom Paris, France | 80. Wenping Wang - Computer Graphics, The University of Hong Kong, Hong Kong | 81. Wolfgang Heidrich - Computer Graphics, King Abdullah University of Science and Technology, Saudi Arabia | 82. Xiaogang Jin - Computer-Aided Geometric Design, Zhejiang University, China | 83. Xiaopei Liu - Computer Graphics, University of Bedfordshire, UK | 84. Xiaotian Yin - Computer Graphics, University of Science and Technology of China, China | 85. Yotam Gingold - Computer Graphics, George Mason University, USA | 86. Yves Demazeau - Computer-Aided Design, Grenoble Alpes University, France | 87. Yves-Simon Gloy - Computer Graphics, University of Bonn, Germany | 88. Yunhai Wang - Computer Graphics, Shandong University, China | 89. Zhigang Deng - Computer Graphics, University of Houston, USA | 90. Zhiguo Jiang - Computer-Aided Geometric Design, Beihang University, China | 91. Zhiguo Li - Computer-Aided Geometric Design, South China University of Technology, China | 92. Zhi-Quan Cheng - Computer-Aided Geometric Design, South China University of Technology, China | 93. Zhouchen Lin - Computer Graphics, Peking University, China | 94. Zoltan Kovacs - Computer-Aided Geometric Design, University of Szeged, Hungary | 95. Zoran Popovic - Computer Graphics, University of Washington, USA | 96. Marco Attene - Computer Graphics, IMATI-CNR, Italy | 97. David Bommes - Computer Graphics, University of Bern, Switzerland | 98. Sebastian Ochmann - Computer-Aided Design, Technische Universität München, Germany | 99. Torsten Hädrich - Computer-Aided Design, Technical University of Denmark, Denmark | 100. Lei Zhang - Computer-Aided Geometric Design, Wuhan University, China

 

 

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Conference Subject Tracks

Automated inspection| Computer aided machine design| Computer technology for design and simulation| Decision support systems| Demolition/remediation| Design of mechanical and electromechanical devices| Engineering graphics and sketching| Facilities management| Fluid mechanics| Heat transfer| Industrial engineering| Intelligent control systems| Leather technology| Logistics  | Machine design| Machine elements and two-dimensional mechanisms| Management information systems| Manufacturing processes| Materials selection and structural dnesig| Mechanical maintenance| Operational research| Quality control| Robotics| Solid mechanics| Textile engineering

 

 

 

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