Digital Transformation: Evaluating Emerging Technologies. Группа авторов
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СКАЧАТЬ Chapter 5Technical Transformation: IT in Disaster Management

       Namitha Shetty and Tugrul Daim

       Part 2Personal Transformation

       Chapter 6Personal Transformation: Evaluation of Smart Home Hubs

       Ahmed Alzahrani, Majed Alshamlani, Wei-Chen Hsu, Shreyas Harish and Tugrul Daim

       Chapter 7Personal Transformation: Protocols for Home Automation Application

       Ahmed Alzahrani and Tugrul Daim

       Chapter 8Personal Transformation: Smart House

       Ahlam Alsuwiada, Ahmed Al-Shareef, Zuhair Alheayk, You Hong Yong, Wei Ming Jang, Kenny Phan and Tugrul Daim

       Chapter 9Personal Transformation: Wearable GPS Device for Children

       Bhawinee Banchongraksa, Jessie Truong, Lu Chuan Chieh, Mufeed Yacoub, Papit Meteekotchadet and Tugrul Daim

       Chapter 10Personal Transformation: Smartwatches

       Alexander Blank, João Ricardo Lavoie, Felix Maier, Kenny Phan and Tugrul Daim

       Chapter 11Personal Transformation: Drones

       Donavon Nigg, Sarah Alobaidi, Rushikesh Jirage, Tejas Deshpande, Haitham Alkharboosh and Tugrul Daim

       Chapter 12Personal Transformation: Electric Scooter

       Esraa Bukhari, Dana Bakry, Mohammadsaleh Saadatmand, Mert Tonkal and Tugrul Daim

       Chapter 13Personal Transformation: Wireless Services

       Asma Razavi, Prajakta Patil, Ritu Chaturvedi, Pallavi Sandanshiv, Kenny Phan and Tugrul Daim

       Part 3Organizational Transformation

       Chapter 14Organizational Transformation: Semiconductors

       Tejas Deshpande and Tugrul Daim

       Chapter 15Organizational Transformation: Universities

       Ahmed Bohliqa, Corey White, Srujana Penmetsa, Sara Bahreini, Zeina Boulos and Tugrul Daim

       Chapter 16Organizational Transformation: Consumer Goods

       Yogi Hamdani and Tugrul Daim

Part 1

      Chapter 1

      Technical Transformation: Transportation Technologies

      Joshua Binus*, Barrett Lewis*, Horatiu Corban*, Fayez Alsoubaie*, Rasnia Tabpla* and Tugrul Daim*,†,‡

      *Portland State University, Portland, Oregon, USA

       Higher School of Economics, Moscow, Russia

       Chaoyang University of Technology, Taiwan

      Abstract

      The power grid is an incredibly complex and important system, and is one of the most impressive engineering works of modern times. Previous research has confirmed that electric transport is now ready to move from traditional and complex uses to be more beneficial from social, economic, political and environmental perspectives. These perspectives, in the use of intelligent transportation, contribute significantly to the provision of energy, cost and time.

      In our research in this paper, we offer many assessments of transportation technology, which included evaluating a range of market-emerging Electric Vehicles (EVs) and Electric Vehicle Service Equipment (EVSE) options. We did so in order to craft a recommendation for future grid-integration programs that will be capable of providing realistic and affordable assistance to electric utilities during summer peak periods (typically occurring about 20 days/year). This research also discusses the most opportune behind-the-meter transportation technologies and products to use for future summer peak Vehicle-to-Grid (V2G) programs in California, Oregon and/or Washington.

      This paper applied a multicriteria decision methodology known as the Hierarchical Decision Model (HDM). This model assessed current transportation technology to determine the technology options based on the judgments of experts who selected multiple criterions.

      Keywords: Technology assessment, transportation, electric vehicles.

      1.Background

      Electrical grids across the world are undergoing a period of prolonged transformation, from centralized, utility-controlled systems with unidirectional power flows (from generators to end-users) and captive customers, to grids that are increasingly integrating Distributed Energy Resources (DERs) at the “grid edge”. The grids taking shape in the 21st century are subsequently becoming more decentralized/distributed, with bi-directional flows (of energy and data) and an ever-increasing number of “prosumers” that are capable of exporting power to the grid from their homes and/or electric vehicles.