全球卫星物联网市场分析（2022-2026）

本报告对全球卫星物联网连接市场进行了深入分析。

• 卫星物联网连接技术及其基本技术概念概述
• 实际 (2017-2021) 和预测 (2022-2026) 市场规模（收入、合同数量）、按地区、细分市场和技术类别划分的详细趋势
• 供应商格局分析：公司概况、市场份额分析、关键技术差异等。
• 主要市场趋势：7大趋势、4大问题、相关案例和示范案例等。
• 项目案例研究（共 9 个）：每个项目的问题、技术解决方案、结果等

本报告分析：

• 什么是卫星物联网连接？
• 构建卫星物联网连接产品和服务的基础技术方面和技术有哪些？
• 卫星物联网连接的市场规模和增长率是多少？ （按地区、行业、技术类别）
• 目前的供应商格局有多大？主要供应商及其市场份额是什么？什么样的初创公司正在兴起，他们向市场提供什么样的创新？
• 卫星物联网连接的主要优点和缺点是什么？
• 卫星物联网连接市场的主要趋势和挑战是什么？
• 有哪些成功部署卫星物联网连接的真实示例？

本报告分析的主要公司

内容

第 1 章执行摘要

第 2 章主题概述

• 使用物联网分析定义物联网
• 卫星物联网的定义
• 卫星物联网与其他物联网无线技术的比较
• 物联网卫星通信的现状
• 卫星物联网的主要优势
• 卫星物联网的主要缺点
• 是时候考虑卫星物联网了
• 主要细分市场和用例概述

第 3 章技术概述

• 本报告中讨论的关键技术概念
• 卫星物联网网络架构
• 配置设备连接
• 卫星商业服务的类别
• 卫星频段
• 小型卫星和立方体卫星
• 卫星星座
• 卫星轨道
• LPGAN（低功耗全球区域网络）

第四章市场规模与展望

• 全球卫星物联网连接市场收入
  • 全球卫星连接市场收入
  • 全球卫星物联网连接市场收入
  • 按地区分列的全球卫星物联网连接市场收入
  • 按行业分列的全球卫星物联网连接市场收入
• 全球卫星物联网连接用户数量
  • 按频段划分的全球卫星物联网连接用户
  • 按通信方式分列的全球卫星物联网连接用户数量
  • 物联网用户数量：按卫星轨道
• 卫星物联网连接的全球 ARPU：前 5 名公司

第 5 章竞争格局

• 卫星物联网连接：供应商地图
• 现有卫星物联网网络运营商概览
• 卫星物联网网络：启动概述
• 按供应商划分的卫星物联网连接市场份额
• 供应商分析：卫星轨道
• 供应商分析：配置物联网连接
• 供应商分析：直接模式连接
• 供应商分析：频段
• 供应商分析：地理分布
• 公司简介

第 6 章趋势和问题

第 7 章案例研究

第 8 章研究方法和市场定义

第 9 章关于 IoT Analytics

A 119-page market report detailing the Satellite IoT connectivity market:

• Detailed overview of Satellite IoT connectivity technologies and the fundamental technical concepts on which they're built

• Market size including actuals for the 2017 - 2021 period and outlook for the 2022-2026 period, including 9 market charts detailing the global market revenue and number of IoT subscriptions by region, segment, and different technology categories

• Vendor landscape analysis including 10 company profiles, 8 market share analysis charts and 6 charts analysing the technological differences in the offering of the surveyed companies

• Main developments in the market highlighting 7 key trends and 4 key challenges, which are discussed in detail with relevant examples and proof-points

• Case study analysis of 9 projects, including the issue, the technical solution and the results of each project

The “Satellite IoT Market Report 2022-2026” is part of IoT Analytics' ongoing coverage of the IoT connectivity and hardware market (IoT Connectivity & Hardware). The information presented in this report is based on 20+ interviews and discussions with industry representatives, in addition to attendance of various on-line briefings and presentations as well as individual secondary research conducted between September 2021 and May 2022. The main purpose of this document is to help our readers understand the current Satellite IoT connectivity landscape by defining, sizing, and analyzing the market.

Find out:

• What is satellite IoT connectivity?

• What are the fundamental technical aspects and technologies upon which satellite IoT connectivity products and services are built on?

• How big is the Satellite IoT Connectivity market and how fast is it growing (by region, industry, and technology categories)?

• How big is the current vendor landscape? Who are the main vendors and what are their market shares? Which start-ups are emerging, and what innovations are they bringing to the market?

• What are the key benefits and main drawbacks of satellite IoT connectivity?

• What are the key trends and challenges in the satellite IoT connectivity market?

• What are some examples of successful implementation of satellite IoT connectivity in real-life case studies?

At a glance:

Satellite IoT refers to the use of satellite communication networks and services to connect terrestrial IoT sensors and IoT end-nodes to a server (e.g. in a public or private cloud), either in conjunction with or as an alternative to terrestrial communication networks.

Satellite IoT connections can run on two different kinds of networks:

• 1. Low-power satellite networks are optimized for narrowband, short-burst data transmissions (up to a few kB) from small, battery-operated devices, and address various low-throughput IoT applications such as remote sensor monitoring and asset tracking.

• 2. Traditional satellite networks are mostly designed for broadband IP-based data and voice communication, although they also support lower throughput non-IP IoT/M2M applications. These networks are best suited to providing internet connectivity services to remote areas or mobile assets (e.g. to consumers or industries such as aviation, maritime, and oil & gas), for first responder and emergency communications, and backhauling of local IoT networks with high sensor density.

There are four ways to provide satellite connectivity to IoT devices.

Direct Access connectivity (direct-to-satellite or direct-to-orbit) allows IoT devices to directly communicate with a satellite network, without the need for an intermediate terrestrial gateway.

The satellite IoT connectivity market is projected to grow to over $960M by 2026.

IoT Analytics has identified over 40 companies providing satellite IoT connectivity services.

Besides a vendor map, the competitive landscape chapter includes market shares by vendor, vendor analyses, and 10 company profiles.

The market report includes 9 satellite IoT case studies across various industries.

Selected companies mentioned in the report:

Table of Contents

1. Executive Summary

2. Topics at a glance

• 2.1. IoT Analytics' definition of IoT
• 2.2. Definition of satellite IoT
• 2.3. Satellite IoT vs. other IoT wireless technologies
• 2.4. The current state of satellite communications for IoT
• 2.5. The main benefits of satellite IoT
• 2.6. The main drawbacks of satellite IoT
• 2.7. When to consider satellite IoT
• 2.8. Overview of key segments and use cases

3. Technology Overview

• 3.1. Key technical concepts discussed in this report
• 3.2. Satellite IoT network architecture
• 3.3. Device connectivity configurations
• 3.4. Satellite commercial services categories
• 3.5. Satellite frequency bands
• 3.6. Smallsats and CubeSats
• 3.7. Satellite constellations
• 3.8. Satellite orbits
• 3.9. Low-Power Global Area Networks (LPGAN)

4. Market Size and Outlook

• 4.1. Global satellite IoT connectivity market revenue
  • 4.1.1. Global satellite connectivity market revenue
  • 4.1.2. Global satellite IoT connectivity market revenue
  • 4.1.3. Global satellite IoT connectivity market revenue by region
  • 4.1.4. Global satellite IoT connectivity market revenue by industry
• 4.2. Global satellite IoT connectivity subscribers
  • 4.2.1. Global satellite IoT connectivity subscribers by frequency band
  • 4.2.2. Global satellite IoT connectivity subscribers by communication mode
  • 4.2.3. Number of IoT subscribers by satellite orbit
• 4.3. Global satellite IoT connectivity ARPU-top five companies

5. Competitive Landscape

• 5.1. Satellite IoT connectivity vendor map
• 5.2. Overview of established satellite IoT network operators
• 5.3. Overview of satellite IoT network start-ups
• 5.4. Satellite IoT connectivity market share by vendor
• 5.5. Vendor analysis: Satellite orbits
• 5.6. Vendor analysis: IoT connectivity configurations
• 5.7. Vendor analysis: Direct mode connectivity
• 5.8. Vendor analysis: Frequency bands
• 5.9. Vendor analysis: Geographical distribution
• 5.10. Company profiles

6. Trends and Challenges

• 6.1. Key trends
• 6.2. Key challenges

7. Case Studies

8. Methodology and Market Definitions

9. About IoT Analytics