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市場調查報告書

全球智慧城市行動作業系統 (行動OS)

Mobility Operating System for Global Smart Cities, 2019

出版商 Frost & Sullivan 商品編碼 920312
出版日期 內容資訊 英文 57 Pages
商品交期: 最快1-2個工作天內
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全球智慧城市行動作業系統 (行動OS) Mobility Operating System for Global Smart Cities, 2019
出版日期: 2019年12月24日內容資訊: 英文 57 Pages
簡介

行動作業系統 (行動OS) ,基本上使市政府可活用分散的城市資料,有效通訊,整合為經營城市的創新解決方案的開發。行動作業系統 (行動OS)的主要零組件,是作為神經系統的強力通訊與網路,開放的巨量資料平台與商店,全面的即時控制中心,深度學習人工智能,預測資料分析,全部由智慧應用支持。

本報告提供全球智慧城市行動作業系統 (行動OS) 市場相關調查分析,以主要城市的行動解決方案為焦點,提供主要企業,市場,相關利益者,成長促進因素,技術,技術供應商,課題,城市所扮演的角色,未來預測相關的系統性資訊。

摘要整理

調查範圍、手法、市場區隔

智慧城市行動OS生態系統

  • 智慧城市行動
  • 智慧城市行動
  • 法規形勢
  • 技術形勢
  • 運輸形勢
  • 基礎設施形勢
  • 行動營運的城市布萊恩的概念
  • 主要的智慧城市行動技術供應商
  • 主要的相關利益者
  • 智慧型交通基礎設施 - 城市所扮演的角色
  • 城市的影響主要的優點
  • 基礎設施和資料安全
  • 革新的夥伴關係和相關利益者策略

智慧城市解決方案 -案例

  • Huawei的智慧城市解決方案 - 概要
  • Huawei OpenLabs
  • Huawei的智慧城市解決方案方法
  • Huawei的合作夥伴生態系統
  • Huawei的智慧城市解決方案 - Binhai (中國)
  • Huawei的智慧城市解決方案 - Yanbu (沙烏地阿拉伯)
  • 阿里巴巴的智慧城市解決方案 - 概要
  • 阿里巴巴的解決方案結構與定位
  • 阿里巴巴的合作夥伴生態系統
  • 阿里巴巴的智慧城市解決方案 - 主要城市
  • Ford的智慧城市解決方案 - 概述
  • Alstom的智慧城市解決方案 - 概述

成長機會及行動提醒 (CTA)

  • 成長機會 - 智慧城市行動OS
  • 成功與成長的策略性必要事項

結論與未來預測

附錄

目錄
Product Code: MEF0-18

Disruptive Smart City Solutions Emerging as a Mega Trend for Intelligent, Integrated, and Seamless Mobility Operations

A mobility operating system essentially empowers a city government to utilize distributed city data, converging it to enable effective communications and developing innovative solutions for city management. The key components of a mobility operating system are strong communications and network as a nervous system, an open Big Data platform and store, a comprehensive real-time control center, Artificial Intelligence for deep learning, and predictive data analytics, all supported by smart applications.

A city mobility operating system allows various city departments to listen to and communicate with citizens and gain insights from the connected city streets and infrastructure, which can be leveraged to drive actionable insights in real time. Cities with a clear mobility vision and comprehensive strategies for vision implementation will emerge as smart mobility champions, while successfully creating a welcoming experience for the city dwellers. The mobility operating system is aimed at supporting this vision and strategy.

The study seeks to analyze the dynamics of the global smart city mobility operating systems market, with a focus on key city mobility solutions. It provides information on the key participants, markets, stakeholders, growth drivers, technologies, technology providers, challenges, role of cities, and future outlook in this space. The study defines the smart mobility operating system along with its key components. It also includes the key layers and the regulatory landscape of mobility operating systems. The study suggests that the technology landscape is the backbone of the entire city ecosystem that provides the needed flexibility and scalability for city mobility operations. It deep dives into the concept of a city brain for mobility management and highlights its key benefits.

In recent years, there has been transformational change in city mobility management, driven by the proliferation of platform-based business models and the ecosystems they enable for mobility, unlocking immense potential for competitive advantages and business benefits. According to Frost & Sullivan, a mobility operating system can play an important role for cities in mobility management in the future through the development of intelligent transport infrastructure in collaboration with the private sector. The study analyzes key stakeholders in the mobility operating system, the impact of cities and their key benefits, and the need for infrastructure and data security for the mobility operating system. It also discusses important partnerships and stakeholder strategies for innovation in the smart mobility operations ecosystem. The study further discusses the use cases of selected smart city solutions from ICT companies and automotive original equipment manufacturers (OEMs), highlighting their aims, approaches, partnerships, and offerings.

Table of Contents

Executive Summary

  • Key Findings
  • Mobility Operating System-An Overview
  • Key Stakeholders
  • Varied Mix of Solution Providers
  • Critical Success Factors
  • Key Findings and Future Outlook

Research Scope, Methodology, and Segmentation

  • Research Scope
  • Research Aims and Objectives
  • Key Questions this Study will Answer
  • Research Background
  • Research Methodology

Smart City Mobility OS Ecosystem

  • Smart City Mobility
  • Smart City Mobility
  • Regulatory Landscape
  • Technology Landscape
  • Transport Landscape
  • Infrastructure Landscape
  • Concept of City Brain for Mobility Operations
  • Key Smart City Mobility Technology Providers
  • Key Stakeholders
  • Intelligent Transport Infrastructure-Role of Cities
  • City Impact and Key Benefits
  • Infrastructure and Data Security
  • Partnership and Stakeholder Strategies for Innovation

Smart City Solutions-Examples

  • Huawei's Smart City Solution-An Overview
  • Huawei OpenLabs
  • Huawei's Smart City Solution Approach
  • Huawei's Partner Ecosystem
  • Huawei's Smart City Solutions-Binhai, China
  • Huawei's Smart City Solutions-Yanbu, Saudi Arabia
  • Alibaba's Smart City Solutions-An Overview
  • Alibaba's Solution Structure and Positioning
  • Alibaba's Partner Ecosystem
  • Alibaba's Smart City Solutions-Select Cities
  • Ford's Smart City Solutions-A Snapshot
  • Alstom's Smart City Solutions-A Snapshot

Growth Opportunities and Call to Action

  • Growth Opportunity-Smart City Mobility Operating Systems
  • Strategic Imperatives for Success and Growth

Conclusions and Future Outlook

  • Key Conclusions
  • The Last Word-3 Big Predictions
  • Legal Disclaimer

Appendix

  • Market Engineering Methodology
  • Abbreviations and Acronyms Used
  • List of Exhibits
  • List of Exhibits (continued)
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