Introduction: The future wireless sensor network (WSN) has to be able to autonomously handle a large number of IoT gadgets in actual time, in extremely dynamic circumstances and offer extremely reliable, minimal latency connectivity. In order for wireless sensor networks to behave intelligently and become adaptable to changes in a range of operating environments, artificial intelligence competency must be included. Numerous difficulties arise from the features of WSNs, including a huge number of detector nodes, dense dispersion, dynamic topological structure, storage capacity, and communication proficiency.
Methodology: The use of artificial network approaches to advance wireless sensor networks' adaptation and smart computation capabilities will increase those networks' functioning and persistence rate. In business applications including production automation and health services, wireless sensor networks are becoming increasingly important. In sensor networks, virtualization may offer scalability, economical solutions, and increased management. This article showcases a broad range of cutting-edge virtual sensor network projects. Through the proposed framework, which leverages tiered architecture and distributed agent systems to facilitate cognitive ability, it is feasible to contrive an outcome that allows a sensor network to function as an distributed agent system.
Results: The suggested model highlights how WSN functions and how to make it clever. In situations like smart home automation, medical monitoring, combat surveillance, rock falls, and animal crossings in hilly terrain, a virtual environment in sensor networks may be possible.
Conclusions: An architecture for a multi-source sensor network might be set up to make effective use of the physical organization of sensors. The virtual infrastructure of sensor networks may provide a new business model by enabling a variety of wireless sensor network topologies to coexist on the same hardware substrate. In order to do this, we are developing a virtual machine that will allow for the real virtual environment of WSNs.