DOCSLIB.ORG

Product Life Cycle Management a Guide to New Product Development

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Product Life Cycle Management a Guide to New Product Development 1 Product Life Cycle Management A Guide to New Product Development I.Komninos, D. Milossis, N. Komninos 2 This guide has been produced in the framework of INTERREG IIIC operation NPD-NET (http://www.urenio.org/npd-net). NPD-NET is a network of six European institutions aiming to enhance the capability of European companies in the New Product Development (NPD). The project is based on the development and implementation of a web-based guide to provide support material for the whole NPD process from the idea generation through the product commercialization. NPD-NET is funded by INTERREG IIIC. The material of the New Product Development Guide has been collected from various sources, referred in the guide content. URENIO was only responsible for the organization and editing of the material included. The original owners of the material are clearly referred in all chapters of this New Product Development Guide. This guide is also presented and organized in web form in the web site of the project NPD-NET (http://www.urenio.org/npd-net). Scientific coordination of NPD-NET and the NPD Guide has been provided by Prof Nicos Komninos. The development and organization of the material of the Guide has been done by Ioannis Komninos. The editing of the Guide has been done by Dimitris Milossis. 3 TABLE OF CONTENTS TABLE OF CONTENTS .................................................................................................................................................. 3 INTRODUCTION ........................................................................................................................................................... 8 NPD STAGE 1: IDEA GENERATION ...................................................................................................................... 10 1.1 TOOLS & SOLUTIONS .............................................................................................................................................. 10 1.1.1 Brainstorming .............................................................................................................................................. 11 1.1.1.1 Brainstorming Methods ........................................................................................................................................ 12 1.1.1.1A. Affinity diagrams .......................................................................................................................................... 12 1.1.1.1B. Osborne's Checklist...................................................................................................................................... 13 1.1.1.1C. Multivoting .................................................................................................................................................... 13 1.1.1.2 Case Studies - Examples ..................................................................................................................................... 14 1.1.1.3 Brainstorming Tool from Urenio ......................................................................................................................... 15 1.1.1.4 Consultants - Experts ........................................................................................................................................... 15 1.1.1.5 Software Tools ...................................................................................................................................................... 15 1.1.1.6 References ............................................................................................................................................................. 16 1.1.2 Competitive Intelligence ............................................................................................................................ 16 1.1.2.1 Improving CI Capabilities .................................................................................................................................... 17 1.1.2.2. Case Studies - Examples .................................................................................................................................... 18 1.1.2.3 Consultants - Experts ........................................................................................................................................... 19 1.1.2.4 Online Resources .................................................................................................................................................. 20 1.1.2.4A. On-line CI Sources ....................................................................................................................................... 20 1.1.2.4B Tools from Urenio Research Unit ................................................................................................................ 20 1.1.2.5 References ............................................................................................................................................................. 20 1.1.3 Conjoint Analysis ........................................................................................................................................ 21 1.1.3.1 Case Studies - Examples ..................................................................................................................................... 22 1.1.3.2 Consultants - Experts ........................................................................................................................................... 24 1.1.3.3 Software Tools ...................................................................................................................................................... 24 1.1.3.4 References ............................................................................................................................................................. 25 1.1.4. Delphi Technique ...................................................................................................................................... 25 1.1.4.1 Consultants - Experts ........................................................................................................................................... 26 1.1.4.2 References ............................................................................................................................................................. 26 1.1.5 Morphological Charts ................................................................................................................................. 27 1.1.5.1 Case Studies – Examples ..................................................................................................................................... 27 1.1.5.2 References ............................................................................................................................................................. 29 1.1.6. Six Thinking Hats ...................................................................................................................................... 29 1.1.6.1. Case Studies - Examples .................................................................................................................................... 30 1.1.6.2. References ............................................................................................................................................................ 31 1.1.7 TRIZ - Idea generation using a problem-solving tool ........................................................................... 31 1.1.7.1 TRIZ Process Methodology .................................................................................................................................. 33 1.1.7.2 Consultants - Experts ........................................................................................................................................... 34 1.1.7.3 References ............................................................................................................................................................. 34 1.2 LEVEL ASSESSMENT FOR STAGE 1: IDEA GENERATION .............................................................................................. 34 NPD STAGE 2: IDEA SCREENING ......................................................................................................................... 35 2.1 TOOLS & SOLUTIONS .............................................................................................................................................. 35 2.1.1. Qualitative Research ................................................................................................................................. 36 2.1.1.1 Case Studies - Examples ..................................................................................................................................... 37 2.1.1.2 Consultants - Experts ........................................................................................................................................... 37 2.1.1.3 Software Tools ...................................................................................................................................................... 38 2.1.1.4 References ............................................................................................................................................................. 38 2.1.2 FMEA (Failure Modes and Effects Analysis) ............................................................................................ 38 2.1.2.1 References ............................................................................................................................................................
Load more

Recommended publications
  • Information Technology Management 14
    Information Technology Management 14 Valerie Bryan Practitioner Consultants Florida Atlantic University Layne Young Business Relationship Manager Indianapolis, IN Donna Goldstein GIS Coordinator Palm Beach County School District Information Technology is a fundamental force in • IT as a management tool; reshaping organizations by applying investment in • understanding IT infrastructure; and computing and communications to promote competi- • ȱǯ tive advantage, customer service, and other strategic ęǯȱǻȱǯȱǰȱŗşşŚǼ ȱȱ ȱ¢ȱȱȱ¢ǰȱȱ¢Ȃȱ not part of the steamroller, you’re part of the road. ǻ ȱǼ ȱ ¢ȱ ȱ ȱ ęȱ ȱ ȱ ¢ǯȱȱȱȱȱ ȱȱ ȱ- ¢ȱȱȱȱȱǯȱ ǰȱ What is IT? because technology changes so rapidly, park and recre- ation managers must stay updated on both technological A goal of management is to provide the right tools for ȱȱȱȱǯ ěȱ ȱ ě¢ȱ ȱ ȱ ȱ ȱ ȱ ȱȱȱȱ ȱȱȱǰȱȱǰȱ ȱȱȱȱȱȱǯȱȱȱȱ ǰȱȱȱȱ ȱȱ¡ȱȱȱȱ recreation organization may be comprised of many of terms crucial for understanding the impact of tech- ȱȱȱȱǯȱȱ ¢ȱ ȱ ȱ ȱ ȱ ǯȱ ȱ ȱ ȱ ȱ ȱ ǯȱ ȱ - ȱȱęȱȱȱ¢ȱȱȱȱ ¢ȱǻ Ǽȱȱȱȱ¢ȱ ȱȱȱȱ ǰȱ ȱ ȱ ȬȬ ȱ ȱ ȱ ȱȱǯȱȱȱȱȱ ¢ȱȱǯȱȱ ȱȱȱȱ ȱȱ¡ȱȱȱȱȱǻǰȱŗşŞśǼǯȱ ȱȱȱȱȱȱĞȱȱȱȱ ǻȱ¡ȱŗŚǯŗȱ Ǽǯ ě¢ȱȱȱȱǯ Information technology is an umbrella term Details concerning the technical terms used in this that covers a vast array of computer disciplines that ȱȱȱȱȱȱȬȬęȱ ȱȱ permit organizations to manage their information ǰȱ ȱ ȱ ȱ Ȭȱ ¢ȱ ǯȱ¢ǰȱȱ¢ȱȱȱ ȱȱ ǯȱȱȱȱȱȬȱ¢ȱ a fundamental force in reshaping organizations by applying ȱȱ ȱȱ ȱ¢ȱȱȱȱ investment in computing and communications to promote ȱȱ¢ǯȱ ȱȱȱȱ ȱȱ competitive advantage, customer service, and other strategic ȱ ǻȱ ȱ ŗŚȬŗȱ ęȱ ȱ DZȱ ęȱǻǰȱŗşşŚǰȱǯȱřǼǯ ȱ Ǽǯ ȱ¢ȱǻ Ǽȱȱȱȱȱ ȱȱȱęȱȱȱ¢ȱȱ ȱ¢ǯȱȱȱȱȱ ȱȱ ȱȱ ȱȱȱȱ ȱ¢ȱ ȱȱǯȱ ȱ¢ǰȱ ȱȱ ȱDZ ȱȱȱȱǯȱ ȱȱȱȱǯȱ It lets people learn things they didn’t think they could • ȱȱȱ¢ǵ ȱǰȱȱǰȱȱȱǰȱȱȱȱȱǯȱ • the manager’s responsibilities; ǻȱǰȱȱ¡ȱĜȱȱĞǰȱȱ • information resources; ǷȱǯȱȱȱřŗǰȱŘŖŖŞǰȱ • disaster recovery and business continuity; ȱĴDZȦȦ ǯ ǯǼ Information Technology Management 305 Exhibit 14.
    [Show full text]
  • Information Technology Management
    U.S. Department of Energy ORDER Washington, D.C. DOE O 200.1A Approved: 12-23-08 SUBJECT: INFORMATION TECHNOLOGY MANAGEMENT 1. OBJECTIVES. The Department of Energy’s (DOE) overarching mission, to advance the national, economic, and energy security of the United States and to promote scientific and technological innovation, is enabled, advanced, and reliant on information and information systems that must be effectively managed to ensure mission success. This Order supports, and is consistent with, DOE P 413.1, Program and Project Management Policy for the Planning, Programming, Budgeting, and Acquisition of Capital Assets, supports the statutory and regulatory requirements provided in the Clinger-Cohen Act, the E-Government Act, the Government Performance Results Act, the Government Paperwork Elimination Act, and Departmental Directives that address effective information technology management of Federal information and information systems, and delineates Departmental requirements and responsibilities to address the following information technology (IT) management areas: a. Acquisition, Use, and Management of IT. (1) Information Technology Strategic Planning. Conduct strategic planning activities, consistent with performance-based and results-based management and in accordance with the Clinger-Cohen Act Sections 5113 and 5123. (2) Capital Planning and Investment Control. Develop, implement, and maintain a Capital Planning and Investment Control process in compliance with DOE P 413.1, Office of Management and Budget (OMB) Circular A-11 Sections
    [Show full text]
  • Digitalization in Supply Chain Management and Logistics: Smart and Digital Solutions for an Industry 4.0 Environment
    A Service of Leibniz-Informationszentrum econstor Wirtschaft Leibniz Information Centre Make Your Publications Visible. zbw for Economics Kersten, Wolfgang (Ed.); Blecker, Thorsten (Ed.); Ringle, Christian M. (Ed.) Proceedings Digitalization in Supply Chain Management and Logistics: Smart and Digital Solutions for an Industry 4.0 Environment Proceedings of the Hamburg International Conference of Logistics (HICL), No. 23 Provided in Cooperation with: Hamburg University of Technology (TUHH), Institute of Business Logistics and General Management Suggested Citation: Kersten, Wolfgang (Ed.); Blecker, Thorsten (Ed.); Ringle, Christian M. (Ed.) (2017) : Digitalization in Supply Chain Management and Logistics: Smart and Digital Solutions for an Industry 4.0 Environment, Proceedings of the Hamburg International Conference of Logistics (HICL), No. 23, ISBN 978-3-7450-4328-0, epubli GmbH, Berlin, http://dx.doi.org/10.15480/882.1442 This Version is available at: http://hdl.handle.net/10419/209192 Standard-Nutzungsbedingungen: Terms of use: Die Dokumente auf EconStor dürfen zu eigenen wissenschaftlichen Documents in EconStor may be saved and copied for your Zwecken und zum Privatgebrauch gespeichert und kopiert werden. personal and scholarly purposes. Sie dürfen die Dokumente nicht für öffentliche oder kommerzielle You are not to copy documents for public or commercial Zwecke vervielfältigen, öffentlich ausstellen, öffentlich zugänglich purposes, to exhibit the documents publicly, to make them machen, vertreiben oder anderweitig nutzen. publicly available on the internet, or to distribute or otherwise use the documents in public. Sofern die Verfasser die Dokumente unter Open-Content-Lizenzen (insbesondere CC-Lizenzen) zur Verfügung gestellt haben sollten, If the documents have been made available under an Open gelten abweichend von diesen Nutzungsbedingungen die in der dort Content Licence (especially Creative Commons Licences), you genannten Lizenz gewährten Nutzungsrechte.
    [Show full text]
  • NRECA Electric Cooperative Employee Competencies 1.24.2020
    The knowledge, skills, and abilities that support successful performance for ALL cooperative employees, regardless of the individual’s role or expertise. BUSINESS ACUMEN Integrates business, organizational and industry knowledge to one’s own job performance. Electric Cooperative Business Fundamentals Integrates knowledge of internal and external cooperative business and industry principles, structures and processes into daily practice. Technical Credibility Keeps current in area of expertise and demonstrates competency within areas of functional responsibility. Political Savvy Understands the impacts of internal and external political dynamics. Resource Management Uses resources to accomplish objectives and goals. Service and Community Orientation Anticipates and meets the needs of internal and external customers and stakeholders. Technology Management Keeps current on developments and leverages technology to meet goals. PERSONAL EFFECTIVENESS Demonstrates a professional presence and a commitment to effective job performance. Accountability and Dependability Takes personal responsibility for the quality and timeliness of work and achieves results with little oversight. Business Etiquette Maintains a professional presence in business settings. Ethics and Integrity Adheres to professional standards and acts in an honest, fair and trustworthy manner. Safety Focus Adheres to all occupational safety laws, regulations, standards, and practices. Self-Management Manages own time, priorities, and resources to achieve goals. Self-Awareness / Continual Learning Displays an ongoing commitment to learning and self-improvement. INTERACTIONS WITH OTHERS Builds constructive working relationships characterized by a high level of acceptance, cooperation, and mutual respect. 2 NRECA Electric Cooperative Employee Competencies 1.24.2020 Collaboration/Engagement Develops networks and alliances to build strategic relationships and achieve common goals. Interpersonal Skills Treats others with courtesy, sensitivity, and respect.
    [Show full text]
  • Technology Planning for Emerging Business Model and Regulatory Integration: the Case of Electric Vehicle Smart Charging
    Portland State University PDXScholar Engineering and Technology Management Faculty Publications and Presentations Engineering and Technology Management 9-1-2016 Technology Planning for Emerging Business Model and Regulatory Integration: The Case of Electric Vehicle Smart Charging Kelly Cowan Portland State University Tugrul U. Daim Portland State University, [email protected] Follow this and additional works at: https://pdxscholar.library.pdx.edu/etm_fac Part of the Operations Research, Systems Engineering and Industrial Engineering Commons Let us know how access to this document benefits ou.y Citation Details Cowan, Kelly and Daim, Tugrul U., "Technology Planning for Emerging Business Model and Regulatory Integration: The Case of Electric Vehicle Smart Charging" (2016). Engineering and Technology Management Faculty Publications and Presentations. 104. https://pdxscholar.library.pdx.edu/etm_fac/104 This Article is brought to you for free and open access. It has been accepted for inclusion in Engineering and Technology Management Faculty Publications and Presentations by an authorized administrator of PDXScholar. Please contact us if we can make this document more accessible: [email protected]. 2016 Proceedings of PICMET '16: Technology Management for Social Innovation Technology Planning for Emerging Business Model and Regulatory Integration: The Case of Electric Vehicle Smart Charging Kelly Cowan, Tugrul U Daim Dept. of Engineering and Technology Management, Portland State University, Portland OR - USA Abstract--Smart grid has been described as the Energy I. LITERATURE REVIEW Internet: Where Energy Technology meets Information Technology. The incorporation of such technology into vast Literature from several key literature streams has been existing utility infrastructures offers many advantages, reviewed and research gaps were identified.
    [Show full text]
  • The Impact of Information Technology on Supply Chain Performance: a Knowledge Management Perspective
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by The University of North Carolina at Greensboro THE IMPACT OF INFORMATION TECHNOLOGY ON SUPPLY CHAIN PERFORMANCE: A KNOWLEDGE MANAGEMENT PERSPECTIVE by Yuan Niu A dissertation submitted to the faculty of The University of North Carolina at Charlotte in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Information Technology Charlotte 2010 Approved by: _______________________________ Dr. Chandrasekar Subramaniam _______________________________ Dr. Antonis Stylianou _______________________________ Dr. Sungjune Park _______________________________ Dr. Arun Rai _______________________________ Dr. Thomas Stevenson ii © 2010 Yuan Niu ALL RIGHTS RESERVED iii ABSTRACT YUAN NIU. The impact of information technology on supply chain performance: a knowledge management perspective (Under direction of DR. CHANDRASEKAR SUBRAMANIAM AND DR. ANTONIS STYLIANOU) Supply chain management has become an increasingly important management tool to help organizations improve their business operations. Although information and communication technologies have been used extensively in supply chains, there is a lack of systematic evidence regarding the mechanisms through which IT creates value. Furthermore, as supply chain objectives are going beyond operational efficiency towards pursuing higher-order goals, such as understanding the market dynamics and discovering new partnering arrangements to provide greater customer value, the capabilities
    [Show full text]
  • Customer Relationship Management and Technology
    Customer Relationship Management and Technology Mohammad Hassan Yousefi , Department of Business Administration and Marketing, Allameh Tabatabayi University/ Market Research Head in Hooshmand Tadbir Research Institute, Tehran, Iran [email protected] Mohammad Hossein Jarrahi , Department of Information Systems, London School of Economics and Political Sciences, London, UK [email protected] Keywords Information Technology, Customer Relationship Management, eCRM Abstract During the last decade, increasing attention has been given to relationship marketing as a way to enhance cooperation between a selling company and its customers and bring benefits to both parties. Globalization and technology improvements have exposed companies to a situation with tough competition. Relationship marketing allows a selling company to better meet competition and exceed their competitors, and hence relationship marketing becomes an important determinator of success in the increasingly competitive business world of today. One method of relationship marketing is Customer Relationship Management (CRM). Nowadays, new technologies have empowered customer relationship management (CRM) to dominate marketing paradigms. However, a large proportion of CRM practices do not yield expected profits. Yet, this phenomenon is attributed to a misconception of CRM and the role of technology in its implementation as there are diverse attitudes toward this issue. Some interpret CRM through a technological framework, and assume software solutions are what the organization mainly needs for leveraging CRM whereas others contend that CRM is more than a technology, and underscore some required considerations including formulating customer-focused strategy, user involvement, and process alignment before CRM execution. Here, these different perspectives are organized into two main groups of technological and non-technological perspectives, and consequently the position they appreciate for technology in CRM will be pondered and compared.
    [Show full text]
  • Product Development Value Stream Mapping (PDVSM) Manual
    Product Development Value Stream Mapping (PDVSM) Manual Release 1.0 September 2005 Hugh L. McManus, PhD The Lean Aerospace Initiative Sept. 2005 Product Development Value Stream Mapping (PDVSM) Manual 1.0 Prepared by: Dr. Hugh L. McManus Metis Design 222 Third St., Cambridge MA 02142 [email protected] for the Lean Aerospace Initiative Center for Technology, Policy, and Industrial Development Massachusetts Institute of Technology 77 Massachusetts Avenue • Room 41-205 Cambridge, MA 02139 The author acknowledges the financial support for this research made available by the Lean Aerospace Initiative (LAI) at MIT, sponsored jointly by the US Air Force and a consortium of aerospace companies. All facts, statements, opinions, and conclusions expressed herein are solely those of the author and do not in any way reflect those of the LAI, the US Air Force, the sponsoring companies and organizations (individually or as a group), or MIT. The latter are absolved from any remaining errors or shortcomings for which the author takes full responsibility. This document is copyrighted 2005 by MIT. Its use falls under the LAI consortium agreement. LAI member companies may use, reproduce, and distribute this document for internal, non-commercial purposes. This notice should accompany any copies made of the document, or any parts thereof. This document is formatted for double-sided printing and edge binding. Blank pages are inserted for this purpose. Color printing is preferred, but black-and-white printing should still result in a usable document. TABLE
    [Show full text]
  • Effective New Product Ideation: IDEATRIZ Methodology
    Effective New Product Ideation: IDEATRIZ Methodology Marco A. de Carvalho Universidade Tecnológica Federal do Paraná, Mechanical Engineering Department, Av. Sete de Setembro 3165, 80230-901 Curitiba PR, Brazil [email protected] Abstract. It is widely recognized that innovation is an activity of strategic im- portance. However, organizations seeking to be innovative face many dilem- mas. Perhaps the main one is that, though it is necessary to innovate, innovation is a highly risky activity. In this paper, we explore the origin of product innova- tion, which is new product ideation. We discuss new product ideation ap- proaches and their effectiveness and provide a description of an effective new product ideation methodology. Keywords: Product Development Management, New Product Ideation, TRIZ. 1 Introduction Introducing new products is one of the most important activities of companies. There is a significant correlation between innovative firms and leadership status [1]. On the other hand, evidence shows that most of the new products introduced fail [2]. There are many reasons for market failures of new products. This paper deals with one of the main potential sources for success or failure in new products: the quality of new product ideation. Ideation is at the start of product innovation, as recognized by eminent authors in the field such as Cooper [1], Otto & Wood [3], Crawford & Di Benedetto [4], and Pahl, Beitz et al. [5]. According to the 2005 Arthur D. Little innovation study [6], idea management has a strong impact on the increase in sales associated to new products. This impact is measured as an extra 7.2 percent of sales from new products and makes the case for giving more attention to new product ideation.
    [Show full text]
  • Introduction to Technology Management
    ering & ine M g a n n E a l g a i e r Industrial Engineering & m t s e u n d t n Namdeo et al., Ind Eng Manage 2016, 5:3 I Management 10.4172/2169-0316.1000195 ISSN: 2169-0316 DOI: Perspective Open Access Introduction to Technology Management Punit Namdeo, Musheer Ahmed Ansarie and Ashutosh Bhatnagar* Institute of Technology-Management, DRDO, Ministry of Defence, Mussoorie, Uttrarakhand, India *Corresponding author: Bhatnagar A, Institute of Technology-Management, DRDO, Ministry of Defence, Mussoorie, Uttrarakhand, India, Tel: +8827949313; E-mail: [email protected] Received date: July 28, 2015, Accepted date: July 02, 2016, Published date: July 08, 2016 Copyright: © 2016 Namdeo P, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Abstract Management of Technology is interdisciplinary fields that integrate science, engineering and management knowledge also with practice. Technology Management is set of management disciplines that allow organizations to manage their technological fundamentals to create competitive advantage. The main focus on technology part for manager is to create wealth. Technology management requires deep understanding of life cycles of technology, product, process and system. Technology management is also a tool to catalyze R&D. By providing R&D team in R&D organization to an increased extent, it can generate more science from existing science and more technology from existing technology. Technology management involve technological tool for national defense, national development and economic growth by resolving to make country a self-reliant, strong and technology developed country.
    [Show full text]
  • New Product Development Methods: a Study of Open Design
    New Product Development Methods: a study of open design by Ariadne G. Smith S.B. Mechanical Engineering Massachusetts Institute of Technology, 2010 SUBMITTED TO THE DEPARTMENT OF ENGINEERING SYSTEMS DEVISION AND THE DEPARTMENT OF MECHANICAL ENGINEERING IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREES OF MASTER OF SCIENCE IN TECHNOLOGY AND POLICY AND MASTER OF SCIENCE IN MECHANICAL ENGINEERING A; SW AT THE <iA.Hu§TTmrrE4 MASSACHUSETTS INSTITUTE OF TECHNOLOGY H 2 INSTI' SEPTEMBER 2012 @ 2012 Massachusetts Institute of Technology. All rights reserved. Signature of Author: Department of Engineering Systems Division Department of Mechanical Engineering Certified by: LI David R. Wallace Professor of Mechanical Engineering and Engineering Systems Thesis Supervisor Certified by: Joel P. Clark P sor of Materials Systems and Engineering Systems Acting Director, Te iology and Policy Program Certified by: David E. Hardt Ralph E. and Eloise F. Cross Professor of Mechanical Engineering Chairman, Committee on Graduate Students New Product Development Methods: a study of open design by Ariadne G. Smith Submitted to the Departments of Engineering Systems Division and Mechanical Engineering on August 10, 2012 in Partial Fulfillment of the Requirements for the Degree of Master of Science in Technology and Policy and Master of Science in Mechanical Engineering ABSTRACT This thesis explores the application of open design to the process of developing physical products. Open design is a type of decentralized innovation that is derived from applying principles of open source software and crowdsourcing to product development. Crowdsourcing has gained popularity in the last decade, ranging from translation services, to marketing concepts, and new product funding.
    [Show full text]
  • M.S. Engineering and Technology Management Curriculum
    Master of Science in Engineering and Technology Management Engineering Management Concentration Management of Technology Concentration Core Courses 24 Core Courses 6 EMGT 507 Engineering Administration EMGT 518 Project Management EMGT 509 Economics and Decision Making INEN 514 Statistical Analysis for Six Sigma EMGT 518 Project Management EMGT 525 Engineering Finance Quantitative Analysis and Management (Pick 3 Courses) 9 INEN 502 Operations Research Methods EMGT 507 Engineering Administration INEN 505 Manufacturing and Operations Analysis EMGT 509 Economics and Decision Making INEN 511 Theory and Application of Lean Manufacturing and Management EMGT 525 Engineering Finance INEN 514 Statistical Analysis for Six Sigma INEN 502 Operations Research Methods INEN 504 Simulation Electives (Pick 3 Courses) 9 INEN 505 Manufacturing and Operations Analysis BUSN 501 Global Perspectives in Business Management INEN 520 Six Sigma Black Belt Project CIS 510 Information Resource Management INEN 566 Six Sigma and Quality Control CIS 521 Introduction to Information System Assurance MGMT 537 Human Resource Management ENTR 501 Technology Transfer and Commercialization MGMT 571 Organizational Behavior ENTR 510 Entrepreneurship and New Venture Creation PSYC 513 Organizational Psychology ENTR 560 Innovative Venture Research PSYC 516 Industrial Psychology INEN 504 Simulation STAT 507 Design and Analysis of Experiments INEN 512 Reliability Engineering INEN 515 Logistics Planning Science, Engineering, and Entrepreneurship (Pick 3 Courses) 9 INEN 520 Six Sigma
    [Show full text]