Abstract
A distributed network composed of sensor nodes with limited computing and communication capabilities is a wireless sensor network, which is a system that can autonomously and intelligently complete target tasks according to the surrounding environment. With its wide application in the fields of smart medical care, smart home, networks of vehicles, and smart media, its communication performance requirements are also increasing. According to the needs of different application scenarios, the first key problem to be solved in wireless sensor networks is what optimization coverage strategy to adopt, which will have a direct impact on the optimal allocation of very limited resources such as node energy, communication bandwidth, computing power, and other network services’ quality. Nodes adopt a probability-based joint perception model, and its algorithm is a node scheduling mechanism based on the connected dominating set to construct a tree. Each node sets the waiting time and becomes a candidate node priority according to the remaining energy and the distance from the parent node. In this paper, the issue of energy fairness is considered in heterogeneous wireless sensor networks. In order to prevent the occurrence of “energy holes,” this paper proposes a node deployment model similar to cellular networks. By deploying heterogeneous sensor nodes in this way, energy saving can be achieved. Based on this model, game theory is used to simulate the data packet transmission process between sensor nodes, an energy consumption mechanism suitable for each stage of data transmission is proposed, and Nash equilibrium is finally obtained by rationally designing the measurement function. The node deployment scheme proposed in this paper not only balances the energy consumption of the network but also prolongs the life cycle of the network. Aiming at the three-dimensional (3D) space environment, this paper studies a node deployment mechanism that guarantees connectivity and has a perceptual coverage degree of k with the help of the Reuleaux tetrahedron model. In this paper, a node deployment strategy is proposed and compared with the node deployment algorithm for 3D sensor network based on truncated octahedron. The simulation experiment results show that the wireless sensor network with artificial intelligence can not only optimize the production process of intelligent media but also improve each link of the media industry chain and further catalyze the development of new formats in the media industry. The experimental results also show that the algorithm can effectively meet the requirements of sensing coverage and connectivity coverage, the number of working nodes is small, the network life cycle is significantly prolonged, and the overall energy consumption of the network is reduced. The study results of this paper provide a reference for follow-up research on the construction of innovative development model of intelligent media under the coverage of wireless sensor network.
Highlights
IntroductionInformation technology is leading the media into the era of intelligence. From the perspective of information dissemination channels, smart media has the characteristics of intelligence, interaction, openness, and novelty, including the software on the smart terminal and the content that is transmitted, as well as the artificial relationship between the two [1]. e information perception ability is especially important, and the integrity of the acquired information reflects the monitoring ability of the network. e positional relationship between nodes, transmission power, and hibernation of nodes can determine the communication between the wireless communication links between the nodes e use of wireless sensor networks in the media industry has become more and more common, and it has subtly
Mathematical Problems in Engineering affected the development trend of media industry and empowered the smart media [2]. e continuous development of wireless sensor networks with artificial intelligence technology has innovated the process of news production, and improved all aspects of the media industry chain and catalyzed the development of new formats in the media industry. e deep integration of wireless sensor networks with artificial intelligence and media realizes the diversification of application scenarios [3]
Wireless sensor networks with artificial intelligence use virtual force algorithm to control the movement of sensor nodes, so that the nodes in the network are evenly distributed, thereby improving the coverage performance of the network
Summary
Information technology is leading the media into the era of intelligence. From the perspective of information dissemination channels, smart media has the characteristics of intelligence, interaction, openness, and novelty, including the software on the smart terminal and the content that is transmitted, as well as the artificial relationship between the two [1]. e information perception ability is especially important, and the integrity of the acquired information reflects the monitoring ability of the network. e positional relationship between nodes, transmission power, and hibernation of nodes can determine the communication between the wireless communication links between the nodes e use of wireless sensor networks in the media industry has become more and more common, and it has subtly. According to the perception characteristics of smart media sensor nodes, the wireless sensor networks with artificial intelligence use the image difference degree calculation method to determine the degree of difference between the images collected by each smart media sensor node [7]. Based on research results from previous scholars, this paper expounds the research status and significance of innovative development model construction of intelligent media; elaborates the development background, current status, and future challenges of wireless sensor networks; introduces the methods and principles of clustered two-hop model and coverage enhancement algorithm; constructs an innovative development model of smart media under the coverage of wireless sensor networks with artificial intelligence; analyzes smart media nodes and wireless control networks, discusses media system architecture and network routing protocol; proposes the media industry restructuring under the coverage of wireless sensor networks with artificial intelligence; performs automated content compilation and real-time content review; realizes algorithm recommendation and human-computer interaction; and carries out a simulation experiment and its result analysis. Based on research results from previous scholars, this paper expounds the research status and significance of innovative development model construction of intelligent media; elaborates the development background, current status, and future challenges of wireless sensor networks; introduces the methods and principles of clustered two-hop model and coverage enhancement algorithm; constructs an innovative development model of smart media under the coverage of wireless sensor networks with artificial intelligence; analyzes smart media nodes and wireless control networks, discusses media system architecture and network routing protocol; proposes the media industry restructuring under the coverage of wireless sensor networks with artificial intelligence; performs automated content compilation and real-time content review; realizes algorithm recommendation and human-computer interaction; and carries out a simulation experiment and its result analysis. e detailed sections are arranged as follows: Section 2 introduces the methods and principles of clustered two-hop model and coverage enhancement algorithm; Section 3 analyzes innovation development model construction based on wireless sensor networks; Section 4 discusses intelligent media model implementation based on wireless sensor networks; Section 5 carries out a simulation experiment and its result analysis; Section 6 is the conclusion
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