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市場調查報告書

多模態型、電動式的城市交通機關:鐵路、巴士、汽車、速克達(Scooter)、自行車

Multimodal Electric Urban Transportation: Trains, Buses, Cars, Scooters, and Bikes

出版商 ABI Research 商品編碼 357126
出版日期 內容資訊 英文 28 Pages
商品交期: 最快1-2個工作天內
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多模態型、電動式的城市交通機關:鐵路、巴士、汽車、速克達(Scooter)、自行車 Multimodal Electric Urban Transportation: Trains, Buses, Cars, Scooters, and Bikes
出版日期: 2016年04月29日 內容資訊: 英文 28 Pages
簡介

本報告提供都市區、電動式的各種智慧運輸 (乘客用) 相關分析,生態系統的整體結構 (含硬體設備、OS、會員制度等) ,及應解決的各種問題 (收益分配計劃,資料的隱私等),可適用的技術選擇 (運輸電話通訊,RFID,視覺確保能力,無線充電技術等),運用形態、經營模式及交通途徑的概要,今後的市場趨勢預測,未來的市場機會等相關調查與考察。

第1章 電動式智慧運輸的都市區的方法

  • 分析概要:電動式智慧運輸
  • 電動式、城市的智慧運輸和ADAS (先進駕駛輔助系統) 的關聯性
  • 各地區的電動車 (EV) 普及率
  • EV的組成架構
  • 電動車和智慧運輸的範例
  • 電動車的種類

第2章 智慧運輸的生態系統和基礎設施

  • 城市基礎設施的影響要素
  • 民間部門的參與
  • 智慧運輸、EV的生態系統相關考察
  • 公共/民間部門的參與
  • EV基礎設施/解決方案
  • 電力巴士充電設備的供應商
  • EV的充電成本、類別、供應商

第3章 智慧運輸用電動車 (EV) 的種類

  • 城市用電動車 (UEV)
  • Velomobile
  • 小型電動車 (LEV):包含電動自行車
  • 電動機車、個人電動車
  • 市街電車 (纜車)/梭
  • 市街電車/輕軌的主要供應商
  • 電力巴士市場
  • 電車市場

第4章 城市智慧電力運輸的市場機會與阻礙

  • 推動市場要素
  • 市場阻礙因素
  • 政府的輔助策略
  • 政府的法規

第5章 城市智慧電力運輸市場預測

  • 出貨台數:各類型
  • 市場收益額:各類型
  • 運行台數:各類型
  • 充電站的裝機率
目錄
Product Code: AN-2217

Multi-modal electric, urban transportation is adaptable to changing needs and transport types, shareable as a service, and virtual across devices, form factors, and the cloud. It is likely a public-private partnership, with different models that work. The focus of this report is passenger, not freight/cargo. The key to a continuous urban mobility route is the seamless connection between public transport (train, bus, shuttle) and last mile solutions (compact e-cars, velomobiles, bikes, and scooters).

It is a significant undertaking to connect all the disparate systems (including hardware, O/S, and memberships) and operators, while addressing challenges such as time to money, revenue sharing plans, and data privacy. Multiple technical options in use include cellular, RFID, vision detection capabilities, as well as multiple wireless charging types.

Businesses that serve this market beyond the vehicle manufacturers include traffic management systems (TMS), ticketing and payment systems, as well as cloud and big analytics.

All of these need to be integrated into a platform to enable an affordable, accessible experience for citizens and visitors.

Table of Contents

1. A SMART ELECTRIC MOBILITY APPROACH TO URBAN CITIES

  • 1.1. Smart Urban Electric Mobility Overview
  • 1.2. Smart Urban Electric Mobility's Link to ADAS
  • 1.3. Regional EV Adoption
  • 1.4. EV Framework
  • 1.5. Electric Vehicles and Smart Mobility Paradigms
  • 1.6. Types of Electric Vehicles

2. SMART MOBILITY ECOSYSTEM AND INFRASTRUCTURE

  • 2.1. Municipal Infrastructure Influencers
  • 2.2. Private Sector Commitment
  • 2.3. Smart Mobility EV Ecosystem Considerations
  • 2.4. Public / Private Engagements
  • 2.5. EV Infrastructure and Solutions
  • 2.6. Electric Bus Charging Suppliers
  • 2.7. Electric Vehicle Charging Cost, Categories, and Suppliers

3. SMART MOBILITY ELECTRIC VEHICLE TYPES

  • 3.1. Urban Electric Vehicles (UEVs)
  • 3.2. Velomobiles
  • 3.3. Light Electric Vehicles (LEVs), including Electric Bikes
  • 3.4. Electric Scooters and Personal Electric Vehicles
  • 3.5. Electric Trams and Shuttles
  • 3.6. Major Tram / Light Rail Suppliers
  • 3.7. Electric Bus Market
  • 3.8. Electric Train / Rolling Stock Market

4. SMART URBAN ELECTRIC OPPORTUNITIES AND BARRIERS

  • 4.1. Market Drivers
  • 4.2. Market Inhibitors
  • 4.3. Government Incentives
  • 4.4. Government Regulation

5. SMART URBAN ELECTRIC MARKET FORECASTS

  • 5.1. Shipments by Type
  • 5.2. Revenue per Type
  • 5.3. Installed Base per Type
  • 5.4. Installed Base of Charging Stations
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