Description
Public safety is much more than just dialing an emergency number as integrated communications and information is critical for optimal emergency response and coordination. The mission critical communications market is rapidly transforming as developing technologies supply solutions necessary to meet emerging demand for improved voice, data, and machine-oriented communications. The public safety community increasingly relies upon IP-based solutions for first responder (ambulance, police, and fire) and dispatch communications as well as overall coordination in the event of a disaster.
Mission Critical Communications Market Dynamics
In conjunction with land mobile radio (LMR) modernization, and industry digitization for the public safety sector transition from LMR to 4G and beyond, public safety LTE and 5G networks establish and support mission critical market capabilities including voice and data communications as well as facilitate opportunities for new mission critical applications.
While mission critical communications market technologies and solutions are often referred to synonymously with the public safety sector, the need for ultra-reliability, low-latency, and/or high bandwidth capabilities are also necessary for enterprise, industrial, and government sectors. Like public safety, solutions in the commercial arena are typically realized via dedicated networks for specific industries including the public safety sector, transportation (air, rail, road, and water), utilities, mining, manufacturing, and the oil & gas industry.
Looking beyond LTE, 5G provides essential support for the mission critical communications market in many ways including improved support for quality of service through various mechanisms including 5G network slicing as well as other technologies optimized for what is known as Ultra-Reliable Low-Latency Communications (URLLC). Thanks to URLLC capabilities, 5G will be a viable alternative to WiFi for indoor mission critical communications as many industrial processes require reliability not possible with wireless LANs, even with WiFi6.
5G network slicing and URLLC capabilities will work in conjunction with edge computing in support of latency-sensitive apps and services for various enterprise, industrial and government use cases. The combination of 5G and edge computing is expected to reduce network latency significantly, which will enable many previously tethered-only applications to achieve greater operational flexibility, such as nomadic implementation/operation or even mobility.
We see a few key technologies playing a key role in support of LTE and 5G, including Artificial Intelligence, big data analytics, and Internet of Things (IoT) solutions. The convergence of AI with IoT, known as the Artificial Intelligence of Things (or AIoT) is another important area as AI adds value to IoT through machine learning and decision making and IoT adds value to AI through connectivity and data exchange. The AIoT market constitutes solutions, applications, and services involving AI in IoT systems and IoT support of AI solutions.
The mission critical communications market is rapidly moving beyond voice to encompass data, and machine-oriented communications. For example, the public safety community increasingly relies upon IP-based solutions for first responders (ambulance, police, fire) and dispatch communications as well as overall coordination in the event of a disaster. Private IoT networks will also connect mission critical commercial operations, such as connecting infrastructure with monitoring and control, supported by AI and advanced data analytics. This will involve intelligent and connected systems that rely upon newly allocated 5G spectrum sharing management solutions for communications. Each of these technologies are evaluated in the report.
Mission Critical Communications Market Report
This report assesses core public safety technology and solutions as well as emerging key areas for the mission critical communications market including 5G, AI, and IoT. The report identifies market opportunities and the market outlook for critical communications with forecasts for 2021 to 2028. This includes analysis of infrastructure evolution such as developments in 5G to provide greater capacity and ultra-low latency in support of mission critical communications.
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