全球空气品质监测软体市场规模（按类型、最终用户、地区、范围和预测）

空气品质监测软体市场规模及预测

空气品质监测软体市场规模预计在 2023 年达到 51 亿美元，到 2031 年将达到 72 亿美元，2024 年至 2031 年的复合年增长率为 7%。用于收集、研究、显示和组织空气品质参数资料的电脑程式或应用程式称为 "空气品质监测软体" 。该软体对于环境监测至关重要，因为它可以帮助企业、政府和组织确定和控制室内和室外空间的空气品质。与一系列空气品质监测设备（包括感测器、分析仪、数据记录器和感测器）集成，可提供有关空气污染物和状况的即时资讯。

住宅、工业和商业领域对空气品质管理软体的需求很高，以监测空气品质法规的遵守情况并管理潜在的排放。同样，政府机构和研究机构对空气品质的需求也有望为市场提供有利可图的机会。

空气品质监测软体市场动态

主要市场驱动因子

日益严重的环境问题：

随着人们越来越意识到空气污染及其对环境和人类健康的不利影响，对空气品质监测系统的需求也日益增加。随着政府、监管机构和环境机构实施严格的法规和标准来监测和控制空气污染水平，空气品质监测软体的应用越来越广泛。

技术开发：

感测器技术、数据分析和云端运算的整合创造了高度复杂和精密的空气品质监测系统，从而实现了准确且经济高效的空气品质监测。

都市化与工业化的兴起：

新兴国家快速的都市化和工业化导致城市和工业区的空气污染水准不断上升。因此，对高效的空气品质监测系统来测量和降低污染水平的需求日益增加。

日益增长的健康问题：

由于空气污染与癌症、心臟病和呼吸系统疾病等许多健康问题之间的联繫，大众对空气品质问题的认识有所提高。越来越多的人、组织和机构希望获得可靠的空气品质数据，为他们的健康状况、户外活动和环境法规提供决策参考。

政府措施与资金：

世界各国政府正在采取措施并提供资金来对抗空气污染并升级监测空气品质的基础设施。各国政府也已开始在智慧城市计画中使用空气品质监测软体，以协助控制空气污染率。

主要问题

资讯的准确性与可靠性：

确保观测框架收集的空气品质资讯的准确性和一致性是一项至关重要的考验。感测器对齐、自然环境和资讯处理策略等因素都会影响资讯的准确性。

整合不同的资讯来源：

空气品质检查框架通常需要协调来自不同来源的信息，例如不同类型的感测器、卫星资讯、天气资讯和真实记录。很难确保这些不同来源之间的一致协调和相似性。

规范化与指导方针：

空气品质检查项目缺乏规范和指导方针，阻碍了市场的发展。不同地区可能存在不同的规格和指导方针，这使得程式设计人员难以确保不同业务领域的一致性。

资料安全与保护：

由于该软体收集和储存有关空气品质和潜在用户位置的敏感数据，因此需要强大的数据安全协议和隐私权政策。安全措施的需求增加迫使空气品质监测软体持续发展。

空气品质监测软体成本高：

空气品质监测软体的高成本对于预算有限的小型企业和新进业者来说是一个障碍。因此，购买软体和维护软体的整体费用可能会阻碍软体的采用。

与现有系统不相容：

先进软体和遗留系统之间缺乏整合和互通性预计会阻碍其在不同地区的采用。

对熟练劳动力的需求：

需要熟练的专业人员来操作空气品质监测软体和分析数据，这是一项重大课题，这表明需要一支具有数据解释专业知识的熟练劳动力。

重大机会

机械式进步：

尖端感测器的进步和资讯调查计算的改进推动了空气品质检测程序的进步，从而可以更精确、更持续地测试空气污染水平。

延伸正念：

人们逐渐意识到空气污染对健康和气候的不良影响，对空气品质检查系统的兴趣也日益增加。这为程式工程师打开了大门，使他们能够满足委员会、企业和网路对改善空气品质的需求。

政府永续发展措施：

政府法规要求对空气品质标准进行监测和报告，这对可靠、高效和可持续的空气品质监测软体的需求很高。

与物联网和云端运算的整合

：将空气品质监测软体与物联网 (IoT) 设备、机器学习、数据分析、软体即服务 (SaaS) 和云端运算平台结合，可实现远端监测，从而可以储存和分析数据。这为软体供应商提供了向各行各业的客户提供可扩展且高效的解决方案的机会。

智慧城市计画与对消费级穿戴装置的日益关註：

人们对个人空气品质监测和楼宇管理系统的兴趣日益浓厚，推动了空气品质监测软体在智慧城市计画和消费者穿戴产品中的使用。

目录

第 1 章 全球空气品质监测软体市场简介

市场概况
• 研究范围
• 先决条件

第 2 章执行摘要

第 3 章：经过验证的市场研究方法

• 资料探勘
• 验证
• 主要来源
• 资料来源列表

第 4 章 全球空气品质监测软体市场展望

• 概述
• 市场动态
  • 驱动程式
  • 阻碍因素
  • 机会
• 波特五力模型
• 价值链分析

第 5 章全球空气品质监测软体市场按类型

• 概述
• 室内空气品质监测软体 室外空气品质监测软体

第6章 全球空气品质监测软体市场（依最终用户划分）

• 概述
• 商业组织
• 行业
• 政府机构和研究机构
• 城市空气品质监测机构
• 其他

第7章 全球空气品质监测软体市场（按地区）

• 概述
• 北美洲
  • 美国
  • 加拿大
  • 墨西哥
• 欧洲
  • 德国
  • 英国
  • 法国
  • 其他欧洲国家
  亚太地区
  • 中国
  • 日本
  • 印度
  • 其他亚太地区
• 世界其他地区
  • 拉丁美洲
  • 中东和非洲

第 8 章全球空气品质监测软体市场：竞争格局

• 概述
• 公司市占率
• 供应商概况
• 主要发展策略

第9章 公司简介

• Cambridge Environmental Research Consultants Ltd
• Kisters AG
• Teledyne Technologies Incorporated
• Horiba, Ltd.
• Lakes Environmental Software
• Bruel & Kjaer Sound & Vibration Measurement A/S
• IPS Meteostar, Inc.
• Environnement S.A
• 3M Company
• Robert Bosch GmbH

第 10 章附录

• 相关报告

Air Quality Monitoring Software Market Size And Forecast

Air Quality Monitoring Software Market size is valued at USD 5.1 Billion in 2023 and is anticipated to reach USD 7.2 Billion by 2031, growing at a CAGR of 7% from 2024 to 2031. Computer programs and applications created to gather, examine, display, and organize data pertaining to air quality parameters are referred to as "air quality monitoring software." This software is essential to environmental monitoring since it assists businesses, governments, and organizations in determining and controlling the quality of the air in both indoor and outdoor spaces. It provides real-time information on air contaminants and conditions by integrating with a variety of air quality monitoring devices, including sensors, analyzers, and data loggers and sensors.

The need for air quality control software is higher in the residential, industrial, and commercial sector to monitor compliance with air quality regulations and manage potential emissions. Similarly, the need for air quality in government agencies and research institutes is projected to create lucrative opportunities for the market.

Air Quality Monitoring Software Market Dynamics

The key market dynamics that are shaping the global air quality monitoring software market include:

Key Market Drivers:

Growing Environmental Concerns:

The need for air quality monitoring systems is being driven by rising awareness of air pollution and its detrimental effects on the environment and human health. Air quality monitoring software is becoming widely used as a result of strict regulations and standards being implemented by governments, regulatory bodies, and environmental agencies to monitor and control air pollution levels.

Technological Developments:

The creation of highly complex and sophisticated air quality monitoring systems through the integration of sensor technology, data analytics, and cloud computing will allow accurate and cost-effective monitoring of air.

Growing Urbanization and Industrialization:

As a result of rapid urbanization and industrialization in the emerging economies, air pollution levels in cities and industrial areas have increased. Thus, increasing demand for efficient air quality monitoring systems in order to determine and reduce pollution levels.

Growing Health Concerns:

The relationship between air pollution and a number of health problems, such as cancer, heart disease, and respiratory disorders, is increasing public awareness regarding air quality issues. More and more people, groups, and institutions are requesting access to trustworthy data on air quality so they can make decisions regarding their health, outdoor activities, and environmental regulations.

Government Initiatives and Funding:

To combat air pollution and upgrade the infrastructure for monitoring air quality, governments across the world are commencing initiatives and funding. The government is also initiating use of air quality monitoring software in the smart city projects to help control air pollution rate.

Key Challenges

Information Precision and Dependability:

Guaranteeing the exactness and unwavering quality of air quality information gathered by observing frameworks is a critical test. Factors like sensor alignment, natural circumstances, and information handling strategies can affect information precision.

Incorporation of Assorted Information Sources:

Air quality checking frameworks frequently need to coordinate information from different sources, including various sorts of sensors, satellite information, climate information, and authentic records. Guaranteeing consistent coordination and similarity among these assorted information sources can be challenging.

Normalization and Guidelines:

The absence of normalized conventions and guidelines for air quality checking programming can impede market development. Various areas might have various norms and guidelines, making it difficult for programming designers to guarantee consistency across different business sectors.

Data Security and Protection:

As software collects and stores sensitive data about air quality and potentially user location, there is need for robust data security protocols and privacy policies. This surging demand for security measures is demanding advancements in air quality monitoring software.

High Costing of Air Quality Monitoring Software:

High cost of air quality monitoring software acts as a barrier for the budget constrained for small enterprises and new entrants. Thus, the overall expenditure on maintenance as well as the purchase of these software is likely to inhibit its usage.

Incompatibility with Existing Systems:

Incompetence of the integration and interoperability of advanced software with legacy systems is projected to inhibit its adoption of across diverse regions.

Demand for Skilled Workforce:

The need for skilled professionals for operating and data analyzing using air quality monitoring software is a major challenge insisting demand for skilled workforce with expertise on data interpretation.

Key Opportunities

Mechanical Progressions:

The improvement of cutting-edge sensor advancements and information investigation calculations enables advancements in air quality checking programming, empowering a more exact and constant examination of air contamination levels.

Expanding Mindfulness:

Developing mindfulness about the unfriendly impacts of air contamination on wellbeing and the climate is driving interest in air quality checking arrangements. This presents open doors for programming engineers to take care of the necessities of legislatures, businesses, and networks making progress toward better air quality.

Government Mandating Sustainability Initiatives:

Government regulations mandating the monitoring and reporting of air quality standards is creating high demand for reliable and efficient sustainable air quality monitoring software.

Integration with IoT and Cloud Computing

: The integration of air quality monitoring software with Internet of Things (IoT) devices, machine learning, data analytics, Software-as-a-Service (SaaS) and cloud computing platforms enables remote monitoring, data storage, and analysis. This presents opportunities for software providers to offer scalable and efficient solutions to clients across various sectors.

Growing Focus on Smart City Initiatives and Consumer Wearables:

Growing inclination toward personal air quality monitoring and building management systems is boosting the use of air quality monitoring software in smart city initiatives and consumer wearables.

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Global Air Quality Monitoring Software Market Regional Analysis

Here is a more detailed regional analysis of the global air quality monitoring software market

Asia Pacific

Rapid urbanization and modern development in nations like China, India, and Southeast Asian countries have prompted expanded air contamination levels. Thus, there is a developing demand for analysis of contamination levels in metropolitan regions and modern zones, state-run administrations across the Asia-Pacific region, executing stricter guidelines to address air contamination concerns.

Growing consumer awareness about the health impacts of air pollution is fueling demand for air quality monitoring solutions for management of both personal and public health. Consequently, governments in APAC are implementing stringent air quality regulations, mandating adoption of air quality monitoring systems in various sectors.

Th emergence of smart city initiatives in majority of the countries in this region is propelling the incorporation of air quality monitoring as a key component, bolstering the adoption of air quality monitoring software for data management and analysis.

All these factors are enabling Asia Pacific exhibit rapid growth over the forecast period.

North America

North America has regulatory bodies like the Environmental Protection Agency (EPA) enforcing strict air quality standards, necessitating continuous monitoring and data analysis, thereby driving demand for sophisticated software solutions. Also, the laws mandate screening and controlling of air contamination levels, opening new doors of opportunities for the expansion of the market. As per Verified Market Research, North America is estimated to dominate the market over the forecast period.

The region is at the forefront of mechanical advancements, including sensor innovations, information investigation, and AI calculations. This innovative ability is fueling improvement in air quality monitoring software with upgraded capacities for information assortment, investigation, and perception. This mindfulness among states, ventures, and the overall population about the unfriendly impacts of air contamination on human wellbeing and the climate is helping the market grow in this region.

Growing public health awareness and companies focusing on sustainability in North America is increasingly prioritizing air quality monitoring software to help track their environmental impact and demonstrate their commitment to clean air.

Global Air Quality Monitoring Software Market: Segmentation Analysis

The Air Quality Monitoring Software Market is segmented on the basis of Type, End-User, Deployment Mode, and Geography.

Air Quality Monitoring Software Market, By Type

• Indoor Air Quality Monitoring Software (IAQMS)
• Outdoor Air Quality Monitoring Software (QAQMS)

Based on Type, the market is bifurcated into Indoor Air Quality Monitoring Software and Outdoor Air Quality Monitoring Software. Indoor Air Quality Monitoring Software is expected to hold the largest market share. The factors can be attributed to the precise control & assessment of indoor air pollution as the indoor quality of air is impacted by dust, smoke, volatile organic compounds from varnishes & paints, odors, occupation-related contaminants, gases, particulate matter, pesticides, solvents, and microbial contaminants.

Air Quality Monitoring Software Market, By Deployment Mode

• Cloud-Based
• On-Premises

Based on deployment mode, the market is segmented into cloud-based and on-premises.

• In the air quality monitoring software market, cloud-based deployment is expected to dominate the market over the forecast period. The ease in scaling up or down based on user needs is making them suitable for organizations of all sizes. Also, the elimination of upfront investment in hardware and IT infrastructure, reducing the overall cost is expected to maintain its lead in the coming years

Air Quality Monitoring Software Market, By End-User

• Commercial
• Industries
• Government Agencies and Research Institutes
• Urban Air Quality Monitoring Agencies
• Others

Based on End-User, the market is bifurcated into Commercial Bodies, Industries, Government Agencies and Research Institutes, Urban Air Quality Monitoring Agencies, and Others. Government Agencies and Research Institutes are predicted to hold the most significant CAGR in the forecasted period as governments use outdoor AQM software to monitor the quality of air around cities & major areas.

Air Quality Monitoring Software Market, By Geography

• North America
• Europe
• Asia Pacific
• Rest of the world

Based on regional analysis, the Global Air Quality Monitoring Software Market is classified into North America, Europe, Asia Pacific, and the Rest of the world. The largest share in the market will be dominated by the Asia Pacific owing to factors like the commercialization of advanced products, growing industrialization, and the implementation of strict air pollution regulations in this region. North America will grow with the highest CAGR due to the adoption of advanced pollution monitoring techniques and a well-established supply chain to distribute AQM products.

Key Players

• The "Global Air Quality Monitoring Software Market" study report will provide valuable insight with an emphasis on the global market. The major players in the market are

3M, General Electric, HORIBA Scientific, Aeroqual, Emerson Electric Co., Seimens, Merck KGaA, Teledyne Technologies Incorporated., Testo SE & Co. KGaA, Thermo Fisher Scientific Inc.,

• Cambridge Environmental Research Consultants Ltd, Kisters AG, Horiba, Ltd., Lakes Environmental Software, Bruel & Kjaer Sound & Vibration Measurement A/S, IPS Meteostar, Inc., Environnement S.A, Robert Bosch GmbH, OPSIS AB, Air Monitors Ltd, Lumasense Technologies, Inc.

Our market analysis also entails a section solely dedicated for such major players wherein our analysts provide an insight to the financial statements of all the major players, along with its product benchmarking and SWOT analysis. The competitive landscape section also includes key development strategies, market share and market ranking analysis of the above-mentioned players globally.

• Air Quality Monitoring Software Market Recent Developments
• In February 2024, EnviraTEC, a top supplier of air quality monitoring systems, was purchased by Honeywell. This action broadens Honeywell's product line and solidifies the company's position in the market for air quality monitoring software.
• In October 2023, Siemens, a German company, introduced its Air Quality Insights program. It is a complete solution for the study, reporting, and display of real-time data on air quality. The needs of monitoring urban and industrial air quality are met by this program.
• In August 2023, Wayne County intended to initiate a three-year comprehensive program, with a budget of $2.7 million, aimed at installing 100 air-quality monitors. These monitors were planned to be strategically positioned on streetlights and other posts across all 43 communities within the county. The primary objective of this initiative was to monitor and assess the levels of various air pollutants, including nitrogen dioxide, ozone, black carbon, and other particulate matter.
• In April 2022, Oizom introduced its latest advancement: AQBot, an industrial-grade air quality monitoring device focused on a single parameter. This compact and lightweight device has various features, catering to industries and consultants seeking precise monitoring of specific target pollutants. AQBot was unveiled in a webinar that drew an audience of around 250 participants from over 30 countries.
• In February 2022, Honeywell unveiled its latest innovation, the Indoor Air Quality (IAQ) monitor. This cutting-edge device enhances indoor air quality by notifying building owners and operators about potential concerns. This monitor can reduce the chances of spreading airborne contaminants by taking a proactive approach. This compact device features a touchscreen interface for the Make in India initiative. It is engineered to measure crucial IAQ indicators such as temperature, relative humidity, and indoor air pollutants. Furthermore, it offers an IAQ index determined by the gathered data.

TABLE OF CONTENTS

1 INTRODUCTION OF GLOBAL AIR QUALITY MONITORING SOFTWARE MARKET

• 1.1 Overview of the Market
• 1.2 Scope of Report
• 1.3 Assumptions

2 EXECUTIVE SUMMARY

3 RESEARCH METHODOLOGY OF VERIFIED MARKET RESEARCH

• 3.1 Data Mining
• 3.2 Validation
• 3.3 Primary Interviews
• 3.4 List of Data Sources

4 GLOBAL AIR QUALITY MONITORING SOFTWARE MARKET OUTLOOK

• 4.1 Overview
• 4.2 Market Dynamics
  • 4.2.1 Drivers
  • 4.2.2 Restraints
  • 4.2.3 Opportunities
• 4.3 Porters Five Force Model
• 4.4 Value Chain Analysis

5 GLOBAL AIR QUALITY MONITORING SOFTWARE MARKET, BY TYPE

• 5.1 Overview
• 5.2 Indoor Air Quality Monitoring Software
• 5.3 Outdoor Air Quality Monitoring Software

6 GLOBAL AIR QUALITY MONITORING SOFTWARE MARKET, BY END-USER

• 6.1 Overview
• 6.2 Commercial Bodies
• 6.3 Industries
• 6.4 Government Agencies and Research Institutes
• 6.5 Urban Air Quality Monitoring Agencies
• 6.6 Others

7 GLOBAL AIR QUALITY MONITORING SOFTWARE MARKET, BY GEOGRAPHY

• 7.1 Overview
• 7.2 North America
  • 7.2.1 U.S.
  • 7.2.2 Canada
  • 7.2.3 Mexico
• 7.3 Europe
  • 7.3.1 Germany
  • 7.3.2 U.K.
  • 7.3.3 France
  • 7.3.4 Rest of Europe
• 7.4 Asia Pacific
  • 7.4.1 China
  • 7.4.2 Japan
  • 7.4.3 India
  • 7.4.4 Rest of Asia Pacific
• 7.5 Rest of the World
  • 7.5.1 Latin America
  • 7.5.2 Middle East & Africa

8 GLOBAL AIR QUALITY MONITORING SOFTWARE MARKET COMPETITIVE LANDSCAPE

• 8.1 Overview
• 8.2 Company Market Share
• 8.3 Vendor Landscape
• 8.4 Key Development Strategies

9 COMPANY PROFILES

• 9.1 Cambridge Environmental Research Consultants Ltd
  • 9.1.1 Overview
  • 9.1.2 Financial Performance
  • 9.1.3 Product Outlook
  • 9.1.4 Key Developments
• 9.2 Kisters AG
  • 9.2.1 Overview
  • 9.2.2 Financial Performance
  • 9.2.3 Product Outlook
  • 9.2.4 Key Developments
• 9.3 Teledyne Technologies Incorporated
  • 9.3.1 Overview
  • 9.3.2 Financial Performance
  • 9.3.3 Product Outlook
  • 9.3.4 Key Developments
• 9.4 Horiba, Ltd.
  • 9.4.1 Overview
  • 9.4.2 Financial Performance
  • 9.4.3 Product Outlook
  • 9.4.4 Key Developments
• 9.5 Lakes Environmental Software
  • 9.5.1 Overview
  • 9.5.2 Financial Performance
  • 9.5.3 Product Outlook
  • 9.5.4 Key Developments
• 9.6 Bruel & Kjaer Sound & Vibration Measurement A/S
  • 9.6.1 Overview
  • 9.6.2 Financial Performance
  • 9.6.3 Product Outlook
  • 9.6.4 Key Developments
• 9.7 IPS Meteostar, Inc.
  • 9.7.1 Overview
  • 9.7.2 Financial Performance
  • 9.7.3 Product Outlook
  • 9.7.4 Key Developments
• 9.8 Environnement S.A
  • 9.8.1 Overview
  • 9.8.2 Financial Performance
  • 9.8.3 Product Outlook
  • 9.8.4 Key Developments
• 9.9 3M Company
  • 9.9.1 Overview
  • 9.9.2 Financial Performance
  • 9.9.3 Product Outlook
  • 9.9.4 Key Developments
• 9.10 Robert Bosch GmbH
  • 9.10.1 Overview
  • 9.10.2 Financial Performance
  • 9.10.3 Product Outlook
  • 9.10.4 Key Developments

10 Appendix

• 10.1 Related Reports