SIMULATION FOREGROUND READING Back Bay Battery‚ Inc. Overview The battery industry is enormous‚ with worldwide revenues of approximately $45 billion. It is highly fragmented with at least 20 major manufacturers in each technology segment. Because of the wide range of applications of batteries‚ companies have tended to specialize in a particular technology or market application. Disposable batteries‚ such as the widely available carbon-zinc and alkaline cells‚ are available in standard sizes
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THE UNIVERSITY OF CONNECTICUT SCHOOL OF BUSINESS ADMINISTRATION NEW PRODUCT AND INNOVATION MANAGEMENT (final version dated September 7; updated September 20) Course Number: MKTG 5230 Pre-requisite: MKTG 5115 Classroom: Room TBA (Hartford Campus) Term: Fall 2012 Class Hours: Sep 7 (5:00pm to 8:00pm)‚ Sep 8 (9:00am to 5:00pm) Sep 14 (5:00pm to 8:00pm)‚ Sep 15 (9:00am to 5:00pm) Sep 28 (5:00pm to 8:00pm)‚ Sep 29 (9:00am to 5:00pm) Instructor: Dr. Girish Punj
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density was rated the highest among all features so we decided to focus on this one. We chose energy density within the NiMH due to its historical profitability. The minimum annual cost for this project was $3M. Since this was our first round of the simulation‚ we decided to invest the minimum required. Our team also felt it was important to focus on process improvement. Learning from the GEOX case study‚ in order to compete with surrounding competition‚ a company must
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1. What was your strategy going into the simulation? Market data analysis stressed two main facts: i) the promising potential of ultracapacitors and ii) surfacing mature market conditions for conventional NiMH batteries. The first piece of information implied that it would be critical to beat the competition and be the first company to offer customers the features and benefits they demanded in the new product. That would have allowed Back Bay to gain a competitive advantage and keep existing customers
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Simulation Strategic Innovation Simulation: Back Bay Battery (v2) Clayton M. Christensen; Willy Shih Added on Sep 22‚ 2014‚ Purchased on Sep 22‚ 2014‚ Expires on Sep 22‚ 2015 Hide Details Product #:7015-HTM-ENGFormat: English Web Based HTML In this single-player simulation‚ students play the role of a business unit manager at a battery company facing the classic Innovator’s Dilemma. Students have to manage R&D investment tradeoffs between the unit’s existing battery technologies
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In my first round‚ I have read the case‚ looked at the available information and applied the BSSE and MI theories to understand what was happening in the market and how I should act. I assumed that the high growth potential market was for the innovative product and I expected the core business to decline over time. I started heavily investing in bringing the new product up to the demanded quality. Then I started losing the core business and missing my sales targets. I got fired. I couldn’t believe
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Strategic Innovation: Back Bay Battery In this online simulation‚ students play the role of a business unit manager at Back Bay Battery Company who must balance a portfolio of R&D investment strategies (over 8 simulated years) across products in the portable power market. Other Online Simulations Other Online Simulations from Business Publishing fromHarvard Harvard Business Publishing Back Bay Battery Strategic Innovation Simulation Supply Chain: Root Beer Game This version of the classic Beer
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Synergetic Solutions Report Individual COURSE DATE Professor Synergetic Solutions Report The Synergetic solutions simulation helps in deciding what steps need to be taken to help the company succeed in the networking solutions market. There were different strategies that could be implemented‚ and also actions plans to take in making the company successful. In cases where productivity increases absenteeism was on the decline. This simulation allows for the identification
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Electrical Battery Model for Use in Dynamic Electric Vehicle Simulations Ryan C. Kroeze‚ Philip T. Krein University of Illinois at Urbana-Champaign Department of Electrical and Computer Engineering 1406 W. Green St. Urbana‚ IL 61801 Tel.: 217-333-6592‚ Fax: 217-333-1162 Email: rkroeze2@uiuc.edu‚ krein@uiuc.edu Abstract - Simulation of electric vehicles‚ hybrid electric vehicles‚ and plug-in hybrid electric vehicles over driving schedules within a full dynamic hybrid and electric vehicle simulator
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A battery‚ which is actually an electric cell‚ is a device that produces electricity from a chemical reaction. In a one cell battery‚ you would find a negative electrode; an electrolyte‚ which conducts ions; a separator‚ also an ion conductor; and a positive electrode. Batteries are made of magnesium dioxide‚ graphite‚ electrolytes‚ zinc oxide and a paper soaked in an electrolyte solution. All of this is sealed in a insulated tube for safety. http://answers.ask.com/consumer_electronics/other/what_are_batteries_made_of
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