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Journal articles on the topic 'Industrial engineering|Mechanical engineering|Computer science'

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Published: 4 June 2021
Last updated: 7 February 2022

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1

Hyder, Debra A., and John Lew Cox. "Industrial engineering computer tools." Computers & Industrial Engineering 15, no. 1-4 (1988): 450–55. http://dx.doi.org/10.1016/0360-8352(88)90126-x.

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2

Neipp, Gerhard. "Computer-integrated mechanical engineering (CIME)." Robotics and Computer-Integrated Manufacturing 7, no. 1-2 (1990): 89–101. http://dx.doi.org/10.1016/0736-5845(90)90047-c.

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3

Elliott, W. S. "Computer-aided mechanical engineering: 1958 to 1988." Computer-Aided Design 21, no. 5 (1989): 275–88. http://dx.doi.org/10.1016/0010-4485(89)90033-x.

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4

Wang, Qing, and Hui Hua Jian. "Discussion of Information Exchange Process of Electrical and Mechanical Open System." Applied Mechanics and Materials 416-417 (September 2013): 1479–83. http://dx.doi.org/10.4028/www.scientific.net/amm.416-417.1479.

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Electrical and mechanical engineering is the main object of industrial science and technology research, which greatly promotes the reform and development of industrial science and technology. Open system is a term widely used in the fields of computer system structure, computer system, computer software and communication system, as well as the main representation of multi-function application of information technology. This thesis first of all makes an introduction of the application characteristics of open system. It then makes an analysis of the development trend of electrical and mechanical engineering and the process of electrical and mechanical open system information exchange based on it, so as to contribute to the following researches.
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5

Benson, R. S. "Computer aided process engineering—an industrial perspective." Computers & Chemical Engineering 16 (May 1992): S1—S6. http://dx.doi.org/10.1016/s0098-1354(09)80003-3.

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6

Patel, R. M., and A. J. McLeod. "Engineering feature description in mechanical engineering design." Computer-Aided Design 21, no. 3 (1989): 185. http://dx.doi.org/10.1016/0010-4485(89)90099-7.

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7

Tokuyasu, Tatsushi. "Installation of Mechatronics Education Using the MindStorms for Dept. of Mechanical Engineering, O.N.C.T." International Journal of Advanced Robotic Systems 6, no. 3 (2009): 19. http://dx.doi.org/10.5772/7236.

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The author constructed an installation course of mechatronics and conducted on the students of department of mechanical engineering, Oita national college of technology. The course is composed of six sessions and is aiming to grow up the mechanical engineers who can adapt quickly to changes in industrial society. Then, the education programs of computer technology and information processing are more emphasized in this course. Certainly the specific subjects involved with mechatronics are constructed as a part of curriculum in the older grades, however there is some difficulties to make students of department of mechanical engineering to have interests in electronics and/or information science. Viewed in this light, it is better to begin mechatronics education with undergoing experiments like this course since they were in early grade.
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8

Chang, Vincent. "MNC-Sponsored Multidisciplinary Industrial-Strength Capstone Design Projects in China." International Journal for Innovation Education and Research 2, no. 10 (2014): 54–65. http://dx.doi.org/10.31686/ijier.vol2.iss10.247.

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With a growing need to reform Chinese higher engineering education, University of Michigan—Shanghai Jiao Tong University Joint Institute (JI) initiated multinational corporation-sponsored industrial-strength Capstone Design Projects (CDP) in 2011. Since 2011, JI has developed 96 corporate-sponsored CDPs since its inception, which include multinational corporation sponsors such as Covidien, Dover, GE, HP, Intel, NI, Philips, and Siemens. Of these projects, healthcare accounts for 27%, energy 24%, internet technology (IT) 22%, electronics 16%, and other industries 11%. This portfolio reflects the trends and needs in the industry, which provides opportunities for engineering students to develop their careers. An accumulated 480 JI students have been teamed up based on their individual backgrounds, specifically electrical engineering, computer engineering, computer science, mechanical engineering, and biomedical engineering. The corporate-sponsored rate grew from 0% in 2010 to 86% in 2014.
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9

Cardoso, Alberto, and António Dourado. "A CURRICULUM FOR INDUSTRIAL INFORMATICS IN COMPUTER SCIENCE AND ENGINEERING DEGREE." IFAC Proceedings Volumes 39, no. 6 (2006): 291–96. http://dx.doi.org/10.3182/20060621-3-es-2905.00051.

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10

Woods, David D., Jennifer C. Watts, John M. Graham, Daniel L. Kidwell, and Philip J. Smith. "Teaching Cognitive Systems Engineering." Proceedings of the Human Factors and Ergonomics Society Annual Meeting 40, no. 4 (1996): 259–63. http://dx.doi.org/10.1177/154193129604000425.

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Our motivation for this paper is to stimulate discussions within the human factors community about teaching Cognitive Engineering at the undergraduate level. For the last fourteen years, the Cognitive Systems Engineering Laboratory at the Ohio State University has offered an undergraduate course in Cognitive Engineering (multiple offerings per year to Industrial Engineering, Industrial Design, Computer Science and Psychology students). In this paper, we will draw from our teaching experiences and describe our framework for teaching Cognitive Engineering.
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11

Pransky, Joanne. "The Pransky interview: Dr Yoky Matsuoka, Vice President Technology, Nest Labs." Industrial Robot: An International Journal 41, no. 6 (2014): 481–86. http://dx.doi.org/10.1108/ir-09-2014-0389.

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Purpose – This article is a “Q&A interview” conducted by Joanne Pransky of Industrial Robot Journal as a method to impart the combined technological, business and personal experience of a prominent, robotic industry engineer-turned entrepreneur regarding the evolution, commercialization and challenges of bringing a technological invention to market. Design/methodology/approach – The interviewee is Dr Yoky Matsuoka, the Vice President of Nest Labs. Matsuoka describes her career journey that led her from a semi-professional tennis player who wanted to build a robot tennis buddy, to a pioneer of neurobotics who then applied her multidisciplinary research in academia to the development of a mass-produced intelligent home automation device. Findings – Dr Matsuoka received a BS degree from the University of California, Berkeley and an MS and PhD in electrical engineering and computer science from the Massachusetts Institute of Technology (MIT). She was also a Postdoctoral Fellow in the Brain and Cognitive Sciences at MIT and in Mechanical Engineering at Harvard University. Dr Matsuoka was formerly the Torode Family Endowed Career Development Professor of Computer Science and Engineering at the University of Washington (UW), Director of the National Science Foundation Engineering Research Center for Sensorimotor Neural Engineering and Ana Loomis McCandless Professor of Robotics and Mechanical Engineering at Carnegie Mellon University. In 2010, she joined Google X as one of its three founding members. She then joined Nest as VP of Technology. Originality/value – Dr Matsuoka built advanced robotic prosthetic devices and designed complementary rehabilitation strategies that enhanced the mobility of people with manipulation disabilities. Her novel work has made significant scientific and engineering contributions in the combined fields of mechanical engineering, neuroscience, bioengineering, robotics and computer science. Dr Matsuoka was awarded a MacArthur Fellowship in which she used the Genius Award money to establish a nonprofit corporation, YokyWorks, to continue developing engineering solutions for humans with physical disabilities. Other awards include the Emerging Inventor of the Year, UW Medicine; IEEE Robotics and Automation Society Early Academic Career Award; Presidential Early Career Award for Scientists and Engineers; and numerous others. She leads the development of the learning and control technology for the Nest smoke detector and Thermostat, which has saved the USA hundreds of billions of dollars in energy expenses. Nest was sold to Google in 2013 for a record $3.2 billion dollars in cash.
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12

Charaf, Hassan, Gábor Harsányi, András Poppe, et al. "BME VIK Annual Research Report on Electrical Engineering and Computer Science 2016." Periodica Polytechnica Electrical Engineering and Computer Science 61, no. 2 (2017): 83. http://dx.doi.org/10.3311/ppee.11067.

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PrefaceSince being established in 1949, the Faculty of Electrical Engineering and Informatics (VIK) BME has played a flagship role in the development of electronics, IT and computer science in Hungary. We are proud of combining engineering applications with sound scientific results, which is the assurance of high-level industrial collaboration leading to novel results and innovation. The various collaborations with our industrial partners has made it clear that the industry expects methods and results which make their industrial processes more effective and increase productivity and quality. Thus, participation in these collaborations give a competitive edge and ensure the continuous development of VIK. These factors have positioned our Faculty as a significant source of knowledge transfer and a treasured partner in various cooperation activities.The current paper gives a brief account of the results achieved at the Faculty of Electrical Engineering and Informatics in the year 2016 and, at the same time, tries to encompass the research activities conducted at different departments of the Faculty. We believe that this survey proves to be an informative summary about our scientific and technological contributions made in the year 2016.László Jakab (dean, BME VIK)János Levendovszky (vice-dean in charge of scientific affairs, BME VIK)
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13

Abella, Robert J., James M. Daschbach, and Roger J. McNichols. "Reverse engineering industrial applications." Computers & Industrial Engineering 26, no. 2 (1994): 381–85. http://dx.doi.org/10.1016/0360-8352(94)90071-x.

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14

Kushnarev, L. I. "Development of Mechanical Engineering: State and Prospects." Herald of the Bauman Moscow State Technical University. Series Mechanical Engineering, no. 4 (133) (August 2020): 61–80. http://dx.doi.org/10.18698/0236-3941-2020-4-61-80.

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The paper seeks to intensify innovation-driven development of Russian mechanical engineering enterprises and industries. The results of combined administrative and technological investigations unambiguously indicate the necessity and feasibility of restructuring the existing industrial system into large mechanical engineering companies and complexes. Integrating the efforts of every company department should ensure maintaining a competitive quality level and restoring the volume of engineering production, diversifying and modernising the manufacturing processes. Practical implementation of the investigation results in terms of substantiating the directions and steps involved in innovation-driven development will ensure not only high efficiency of introducing them into mechanical engineering and machine utilisation, but also the desired technological breakthrough in production, science and education
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15

Simpson, Tim, Russell Barton, and Dave Celento. "Interdisciplinary By Design." Mechanical Engineering 130, no. 09 (2008): 30–33. http://dx.doi.org/10.1115/1.2008-sep-2.

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This article highlights about the fact that many speculate on the outcomes of design, but how many consider the process by which designs are executed. The seed for many of these emerging interdisciplinary programs in design is not new either—cutting-edge research and advancements invariably lie at the boundaries of departmental silos. The product-architecture program at Stevens has successfully integrated architecture, engineering, computation, and product development, attracting students with wide-ranging interests and diverse backgrounds in architecture, visual arts, industrial design, mathematics, computer science, and mechanical, aerospace, and biomedical engineering. By focusing on the product or system being designed, the program is dissolving boundaries in design education and launching students along trajectories of design leadership and social entrepreneurialism. As globalization moves engineering, business, and design closer together, many argued that interdisciplinary graduate design programs are the future for the United States to maintain its position in product leadership.
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16

Walton, H. Philip. "The Industrial Engineering Toolbox (IET)." Computers & Industrial Engineering 17, no. 1-4 (1989): 575–79. http://dx.doi.org/10.1016/0360-8352(89)90127-7.

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17

Scott, Robert E. "Microcomputer applications in industrial engineering." Computers & Industrial Engineering 17, no. 1-4 (1989): 596. http://dx.doi.org/10.1016/0360-8352(89)90131-9.

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18

Oh, Keytack H. "Computers and industrial engineering education." Computers & Industrial Engineering 27, no. 1-4 (1994): 517–20. http://dx.doi.org/10.1016/0360-8352(94)90348-4.

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19

Tazo, Maria Inmaculada, Ana Boyano, Unai Fernandez-Gámiz, and Amaia Calleja-Ochoa. "The Gender Perspective of Professional Competencies in Industrial Engineering Studies." Sustainability 12, no. 7 (2020): 2945. http://dx.doi.org/10.3390/su12072945.

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Sexism and gender relations in higher education require special attention and are a topic of great interest in regulations related to education. The low participation percentage of women in Science, Technology, Engineering, and Mathematics (STEM) studies has been identified as one of the main problems that must be resolved in order to close the gender gap that exists in the technology sector. The purpose of this study was to investigate the influence of professional competences on the selection of university studies according to the absence or presence of masculinization factors in those studies. Mechanical engineering competences, both generic and transversal, and competence acquisition methods, are classified into ‘care’ (feminine) or ‘provisions’ (masculine) concepts. After the competence analysis, it can be concluded that explicit engineering curricula are focused on “provisions”, which translates into a cultural perception of industrial engineering as a male profession. After a professional competence analysis in engineering studies at The University of the Basque Country (UPV/EHU), our study identified a relationship between the masculinization factors included in professional competences and the selection of university studies. This paper presents working actions towards the incorporation of a gender perspective into the degree in mechanical engineering at the UPV/EHU.
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20

Raz, Tzvi. "Integration of new computer technologies in an industrial engineering academic department." Computers & Industrial Engineering 12, no. 3 (1987): 159–65. http://dx.doi.org/10.1016/0360-8352(87)90009-x.

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21

Setiyo, Muji, Tuessi Ari Purnomo, Dori Yuvenda, et al. "Industry 4.0: Challenges of Mechanical Engineering for Society and Industry." Mechanical Engineering for Society and Industry 1, no. 1 (2021): 3–6. http://dx.doi.org/10.31603/mesi.5309.

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Today, in the industry 4.0 era, the boundaries of scientific disciplines are blurred, everything seems to be interrelated and shows the ability to be combined. Intelligent sensors combined with Artificial Intelligence (AI) have demonstrated their ability to influence processes, design, and maintenance in manufacturing systems. Mechanical engineering tasked with solving complex engineering problems must be able to adapt to this transformation, especially in the use of digital and IT to combine the principles of physics and engineering mathematics with materials science to design, analyze, manufacture, and maintain mechanical systems. On the other hand, mechanical engineering must also contribute to a better future life. Therefore, one of the keys to consistently playing a role is to think about sustainability, in order to provide benefits for society and industry, in any industrial era.
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22

Lee, R. S., and Q. C. Hsu. "Development of an Integrated Process Planning-Based Cae System for Cold Forging." Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 206, no. 3 (1992): 215–25. http://dx.doi.org/10.1243/pime_proc_1992_206_076_02.

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In this paper, an integrated system for computer aided engineering of cold forging, based on the development of a knowledge-based process planning system, is proposed. The system is integrated into a structure of computer software which combines the experience-based design guidelines and the science-based analysis and simulation. By using the proposed system, the manufacturing engineer can obtain an engineering solution between cold forged part design and part manufacture. The implemented system consists of cold forging process planning, plasticity analysis of the forging process, die design and die manufacture, and production simulation. Several industrial examples were given to demonstrate the concept of a proposed intelligent system.
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23

Bidanda, Bopaya, and Yasser A. Hosni. "Reverse engineering and its relevance to industrial engineering: A critical review." Computers & Industrial Engineering 26, no. 2 (1994): 343–48. http://dx.doi.org/10.1016/0360-8352(94)90067-1.

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24

Fields, F. E. "Industrial engineering use of a spreadsheet." Computers & Industrial Engineering 11, no. 1-4 (1986): 312–15. http://dx.doi.org/10.1016/0360-8352(86)90101-4.

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25

Kacem, Imed, and Hans Kellerer. "Foreword: Combinatorial optimization for industrial engineering." Computers & Industrial Engineering 61, no. 2 (2011): 239–41. http://dx.doi.org/10.1016/j.cie.2011.07.016.

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26

Zhao, Qiuhong, Runliang Dou, Kuo-Yi Lin, and Chia-Yu Hsu. "Applications of new industrial engineering methodologies." Computers & Industrial Engineering 159 (September 2021): 107479. http://dx.doi.org/10.1016/j.cie.2021.107479.

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27

Mezher, Toufic, M. Asem Abdul-Malak, Ibrahim Ghosn, and Maher Ajam. "Knowledge Management in Mechanical and Industrial Engineering Consulting: A Case Study." Journal of Management in Engineering 21, no. 3 (2005): 138–47. http://dx.doi.org/10.1061/(asce)0742-597x(2005)21:3(138).

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28

Bennett, F. Lawrence. "Trends in Engineering Organizational Computer Use." Journal of Management in Engineering 4, no. 3 (1988): 201–16. http://dx.doi.org/10.1061/(asce)9742-597x(1988)4:3(201).

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29

Jacobson, Ivar, Ian Spence, and Ed Seidewitz. "Industrial Scale Agile - from Craft to Engineering." Queue 14, no. 5 (2016): 99–130. http://dx.doi.org/10.1145/3012426.3012428.

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30

Sachdeva, Anish, Vishal S. Sharma, and Jagwinder Singh. "Recent advances in Industrial Engineering." Journal of Manufacturing Technology Management 30, no. 6 (2019): 897–98. http://dx.doi.org/10.1108/jmtm-10-2019-460.

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31

Riedelt, Johann c. k. h., Kulwant S. Pawar, and Richard Barson. "Academic and Industrial User Needs for a Concurrent Engineering Computer Simulation Game." Concurrent Engineering 9, no. 3 (2001): 223–37. http://dx.doi.org/10.1177/1063293x0100900304.

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32

Kahraman, Cengiz. "Fuzzy set applications in industrial engineering." Information Sciences 177, no. 7 (2007): 1531–32. http://dx.doi.org/10.1016/j.ins.2006.09.010.

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33

Nasir, Mohammad, Ali Sadollah, Jin Hee Yoon, and Zong Woo Geem. "Comparative Study of Harmony Search Algorithm and its Applications in China, Japan and Korea." Applied Sciences 10, no. 11 (2020): 3970. http://dx.doi.org/10.3390/app10113970.

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Harmony Search (HS) is a music-inspired optimization algorithm for solving complex optimization problems that imitate the musical improvisational process. This paper reviews the potential of applying the HS algorithm in three countries, China, South Korea, and Japan. The applications represent several disciplines in fields of study such as computer science, mathematics, electrical/electronic, mechanical, chemical, civil, and industrial engineering. We anticipate an increasing number of HS applications from these countries in near future.
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34

Pham, D. T., and P. T. N. Pham. "Expert systems in mechanical and manufacturing engineering." International Journal of Advanced Manufacturing Technology 3, no. 3 (1988): 3–21. http://dx.doi.org/10.1007/bf02601587.

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35

Brown, V. "SECOND INDUSTRIAL AND ENGINEERING SURVEY CONFERENCE." Photogrammetric Record 12, no. 71 (2006): 665–66. http://dx.doi.org/10.1111/j.1477-9730.1988.tb00613.x.

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36

Pransky, Joanne. "The Pransky interview: Dr Nabil Simaan, Vanderbilt University Professor of Mechanical Engineering, Computer Science and Otolaryngology, Thought Leader in Medical Robotics." Industrial Robot: the international journal of robotics research and application 48, no. 4 (2021): 473–77. http://dx.doi.org/10.1108/ir-03-2021-0053.

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Purpose The following article is a “Q&A interview” conducted by Joanne Pransky of Industrial Robot Journal as a method to impart the combined technological, business and personal experience of a prominent, robotic industry PhD and innovator regarding his pioneering efforts. The paper aims to discuss these issues. Design/methodology/approach The interviewee is Dr Nabil Simaan, Professor of Mechanical Engineering, Computer Science and Otolaryngology at Vanderbilt University. He is also director of Vanderbilt’s Advanced Robotics and Mechanism Applications Research Laboratory. In this interview, Simaan shares his unique perspective and approaches on his journey of trying to solve real-world problems in the medical robotics area. Findings Simaan received his BSc, MSc and PhD in mechanical engineering from the Technion – Israel Institute of Technology. He served as Postdoctoral Research Scientist in Computer Science at Johns Hopkins University. In 2005, he joined Columbia University, New York, NY, as an Assistant Professor of Mechanical Engineering until 2010, when he joined Vanderbilt. His current applied research interests include synthesis of novel robotic systems for surgical assistance in confined spaces with applications to minimally invasive surgery of the throat, natural orifice surgery, cochlear implant surgery and dexterous bimanual microsurgery. Theoretical aspects of his research include robot design and kinematics. Originality/value Dr Simaan is a leading pioneer on designing robotic systems and mechanisms for medical applications. Examples include technologies for snake robots licensed to Intuitive Surgical; technologies for micro-surgery of the retina, which led to the formation of AURIS Surgical Robotics; the insertable robotic effector platform (IREP) single-port surgery robot that served as the research prototype behind the Titan Medical Inc. Sport (Single Port Orifice Robotic Technology). Simaan received the NSF Career award for young investigators to design new algorithms and robots for safe interaction with the anatomy. He has served as the Editor for IEEE International Conference on Robotics and Automation, Associate Editor for IEEE Transactions on Robotics, Editorial Board Member of Robotica, Area Chair for Robotics Science and Systems and corresponding Co-chair for the IEEE Technical Committee on Surgical Robotics. In January 2020, he was bestowed the award of Institute of Electrical and Electronics Engineers (IEEE) Fellow for Robotics Advancements. At the end of 2020, he was named a top voice in health-care robotics by technology discovery platform InsightMonk and market intelligence firm BIS Research. Simaan holds 15 patents. A producer of human capital, his education goal is to achieve the best possible outcome with every student he works with.
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Thiruvarudchelvan, S. "Metalworking science and engineering." Journal of Materials Processing Technology 32, no. 3 (1992): 640–42. http://dx.doi.org/10.1016/0924-0136(92)90263-r.

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38

Peters, J. "Engineering, a Dialogue between Science and Society." CIRP Annals 43, no. 1 (1994): 401–4. http://dx.doi.org/10.1016/s0007-8506(07)62239-2.

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Shore, P., C. Cunningham, D. DeBra, et al. "Precision engineering for astronomy and gravity science." CIRP Annals 59, no. 2 (2010): 694–716. http://dx.doi.org/10.1016/j.cirp.2010.05.003.

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40

Miller, Loren K. "Simulation-Based Engineering for Industrial Competitive Advantage." Computing in Science & Engineering 12, no. 3 (2010): 14–21. http://dx.doi.org/10.1109/mcse.2010.71.

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41

Sepúlveda, JoséA. "Microcomputer applciations in an industrial engineering curriculum." Computers & Industrial Engineering 17, no. 1-4 (1989): 580–85. http://dx.doi.org/10.1016/0360-8352(89)90128-9.

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42

Branson, Michael, Terrence Beaumariage, and Morteza Abtahi. "Integrating microcomputers into the industrial engineering curriculum." Computers & Industrial Engineering 13, no. 1-4 (1987): 199–202. http://dx.doi.org/10.1016/0360-8352(87)90081-7.

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Alak, Safa M., and Abduladhem Abdulkarem. "Spreadsheet assisted learning of industrial control engineering." Computers & Industrial Engineering 19, no. 1-4 (1990): 170–74. http://dx.doi.org/10.1016/0360-8352(90)90099-8.

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44

Steinberg, Luiz, and Sencer Yeralan. "Industrial engineering support network for small manufacturers." Computers & Industrial Engineering 23, no. 1-4 (1992): 467–69. http://dx.doi.org/10.1016/0360-8352(92)90162-d.

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Jackson, Denise F., and Kelechuku Okike. "Relational database management systems and industrial engineering." Computers & Industrial Engineering 23, no. 1-4 (1992): 479–82. http://dx.doi.org/10.1016/0360-8352(92)90165-g.

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Turban, Efraim. "Expert systems—another frontier for industrial engineering." Computers & Industrial Engineering 10, no. 3 (1986): 227–35. http://dx.doi.org/10.1016/0360-8352(86)90008-2.

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47

Jeong, Wootae, and Shimon Y. Nof. "Collaborative e-work networks in industrial engineering." Computers & Industrial Engineering 57, no. 1 (2009): 1–2. http://dx.doi.org/10.1016/j.cie.2009.01.012.

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48

Huang, G. Q., and K. L. Mak. "Computer aids for engineering change control." Journal of Materials Processing Technology 76, no. 1-3 (1998): 187–91. http://dx.doi.org/10.1016/s0924-0136(97)00347-6.

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Pransky, Joanne. "The Pransky interview: Dr Howard Chizeck, founder, Olis Robotics; Professor, Electrical and Computer Engineering, University of Washington." Industrial Robot: the international journal of robotics research and application 46, no. 4 (2019): 467–70. http://dx.doi.org/10.1108/ir-05-2019-0102.

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Purpose The following paper is a “Q&A interview” conducted by Joanne Pransky of Industrial Robot Journal as a method to impart the combined technological, business and personal experience of a prominent, robotic industry PhD and innovator regarding his pioneering efforts and his personal journey of bringing a technological invention to market. This paper aims to discuss these issues. Design/methodology/approach The interviewee is Dr Howard Chizeck, Professor of Electrical and Computer Engineering and Adjunct Professor of Bioengineering at the University of Washington (UW). Professor Chizeck is a research testbed leader for the Center for Neurotechnology (a National Science Foundation Engineering Research Center) and also co-director of the UW BioRobotics Laboratory. In this interview, Chizeck shares the details on his latest startup, Olis Robotics. Findings Howard Jay Chizeck received his BS and MS degrees from Case Western Reserve University and the ScD degree in Electrical Engineering and Computer Science from the Massachusetts Institute of Technology. He served as Chair of the Department of Systems, Control and Industrial Engineering at Case Western Reserve University and was also the Chair of the Electrical and Computer Engineering Department at the University of Washington. His telerobotic research includes haptic navigation and control for telerobotic devices, including robotic surgery and underwater systems. His neural engineering work involves the design and security of brain-machine interfaces and the development of devices to control symptoms of essential tremor and Parkinson’s disease. Originality/value Professor Chizeck was elected as a Fellow of the IEEE in 1999 “for contributions to the use of control system theory in biomedical engineering” and he was elected to the American Institute for Medical and Biological Engineering (AIMBE) College of Fellows in 2011 for “contributions to the use of control system theory in functional electrical stimulation assisted walking.” From 2008 to 2012, he was a member of the Science Technology Advisory Panel of the Johns Hopkins Applied Physics Laboratory. Professor Chizeck currently serves on the Visiting Committee of the Case School of Engineering (Case Western Reserve University). He is a founder and advisor of Controlsoft Inc (Ohio) and also is a founder and Chair of the Board of Directors of Olis Robotics, Inc., which was established in 2013 (under the name of BluHaptics) to commercialize haptic rendering, haptic navigation and other UW telerobotic technologies. He holds approximately 20 patents, and he has published more than 250 scholarly papers.
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Sokolov, V. "Mechanical Engineering Clusters in International Division of Labor." World Economy and International Relations, no. 5 (2013): 31–40. http://dx.doi.org/10.20542/0131-2227-2013-5-31-40.

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The article considers the proportions of mutual deliveries of goods in the triangle USA – Western Europe – East Asia in the recent decade. It is shown that the USA remained to be a net importer of industrial products while West European and East Asian countries were the net providers. The US deficit in goods’ trade with China and Germany exceeded the pre-crisis level. Still, the integral trade deficit of the USA remained lower than before the crisis, in particular because of lesser deficit in trade with oil producing countries and Japan. Reduction of China’s and Eurozone countries’ surplus in comparison to 2007-2008 can be explained by the dynamics of their trade with third countries (in particular, with the suppliers of energy resources which the prices turned back to high levels in post-crisis period). The same relate to a lesser extent to Japan which the surplus in trade with the USA did not reach the pre-crisis level. The author concludes that even during crisis and post-crisis periods the changes in balance of payments of the leading suppliers of mechanical engineering goods were mostly determined by their trade with the suppliers of raw materials rather than by the mutual trade.
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