Frost & Sullivan Presents Top Sensor Technologies Impacting the Future of Smart Cities English
Frost & Sullivan's recent analysis, Opportunities of Emerging Sensor Technologies Impacting the Future of Smart Cities, reports that digitization and advancements in Internet of Things (IoT) are driving the large-scale adoption of sensor technologies across cities.
Combined with key enabling technologies such as artificial intelligence (AI) and high-speed internet networks, integrated sensor networks in cities are driving the creation of a connected city ecosystem to enable the optimal use of public resources.
Major investments by top smart city governments in Singapore, New York, and Tokyo show rapid pace of adoption of smart solutions. The rise of smart cities has not only created growth opportunities for sensor makers, but has also accelerated the adoption of several supporting technologies such as 5G, robots, AI, and edge computing, creating endless growth opportunities for smart city applications.
For further growth opportunities, smart cities should leverage the following sensor technologies:
Electronic sensors are deployed in environmental surveillance sensors and speedometer sensors which are typically used in smart cities to carry out a variety of tasks, such as monitoring power and current levels for fault detection.
Infrared sensors aid in unbiased data generation in dynamic and unstable environments, which can help with decision-making in smart cities. Radar sensors are useful in utilizing complex computer data to analyze crucial archaeological site information.
Thermal sensors perform accurate tracking of energy distribution, while other smart sensors enable management of demand-side energy. As such, smart grid sensors help improve energy efficiency.
Proximity and lidar sensors can aid development of automated vehicle systems, which is critical to making a city completely smart.
Combined with key enabling technologies such as artificial intelligence (AI) and high-speed internet networks, integrated sensor networks in cities are driving the creation of a connected city ecosystem to enable the optimal use of public resources.
Major investments by top smart city governments in Singapore, New York, and Tokyo show rapid pace of adoption of smart solutions. The rise of smart cities has not only created growth opportunities for sensor makers, but has also accelerated the adoption of several supporting technologies such as 5G, robots, AI, and edge computing, creating endless growth opportunities for smart city applications.
For further growth opportunities, smart cities should leverage the following sensor technologies:
Electronic sensors are deployed in environmental surveillance sensors and speedometer sensors which are typically used in smart cities to carry out a variety of tasks, such as monitoring power and current levels for fault detection.
Infrared sensors aid in unbiased data generation in dynamic and unstable environments, which can help with decision-making in smart cities. Radar sensors are useful in utilizing complex computer data to analyze crucial archaeological site information.
Thermal sensors perform accurate tracking of energy distribution, while other smart sensors enable management of demand-side energy. As such, smart grid sensors help improve energy efficiency.
Proximity and lidar sensors can aid development of automated vehicle systems, which is critical to making a city completely smart.
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