Anti-Congestion Algorithm for Multiple Data Unicast Transmission in the Internet of Brain Things

Aiming at the problems of traditional cross-talk, channel competition, and data transmission congestion in the brain Internet of Things transmission, a new anti-congestion algorithm for multi-data unicast transmission is proposed. The algorithm calculates the congestion probability of multiple data unicasts by establishing a multi-dimensional conflict model for multiple data transmission channels in the brain Internet of Things. According to the crosstalk characteristic of the network data transmission channel path in the space, the congestion condition of multiple data unicast transmission is detected, and the congestion state of the unicast transmission in the brain Internet of Things is reversed to detect the congestion channel, thereby reducing the congestion-prone data transmission. To achieve anti-congestion transmission, the simulation experiment is carried out on the method. The experimental results show that the method can accurately detect channel path conflict information in multiple data unicast transmissions. It has high-data transmission performance and contributes to the congestion transmission of various data in the brain of the Internet of Things in the future.

[1]  A. Ansari Remarks on Green function of space-fractional biharmonic heat equation using Ramanujan’s master theorem , 2017 .

[2]  Wei Gao,et al.  Distance learning techniques for ontology similarity measuring and ontology mapping , 2017, Cluster Computing.

[3]  S. Kumar,et al.  Steganography based image sharing with reversibility , 2016 .

[4]  Shien-Ping Huang Effects of organizational learning process on knowledge outflow of the subsidiaries of international businesses , 2017 .

[5]  Xingyang Liu,et al.  The structure form layout and installation design about car-based photonics mast , 2017 .

[6]  Xu-Ren Luo Analysis of inventory models with ramp type demand , 2017 .

[7]  Fan Zhang Designing and Applying a Pedagogical Interaction Model in the Smart Cloud Platform , 2017 .

[8]  Ai-Min Yang,et al.  Research on a Fusion Scheme of Cellular Network and Wireless Sensor for Cyber Physical Social Systems , 2018, IEEE Access.

[9]  K. Singh,et al.  Effect of temperature regimes, seed priming and priming duration on germination and seedling growth on American cotton , 2018 .

[10]  M. Qadir,et al.  In-silico study of potential carboxylic acid derivatives as D-glutamate ligase inhibitors in Salmonella typhi , 2018 .

[11]  Zhaoxing Li,et al.  Research on Big Data Digging of Hot Topics about Recycled Water Use on Micro-Blog Based on Particle Swarm Optimization , 2018, Sustainability.

[12]  Hongwei Xing,et al.  Synthesis and comparison of photocatalytic properties for Bi2WO6 nanofibers and hierarchical microspheres , 2017 .

[13]  Haihong Liu,et al.  Hopf-pitchfork bifurcation analysis in a coupled FHN neurons model with delay , 2017 .

[14]  Tingting Wang,et al.  Research on Workshop-Based Positioning Technology Based on Internet of Things in Big Data Background , 2018, Complex..

[15]  Hao Zhang,et al.  Systematic Research on the Application of Steel Slag Resources under the Background of Big Data , 2018, Complex..

[16]  Zhenling Liu,et al.  Adsorption characteristics of sulfur powder by bamboo charcoal to restrain sulfur allergies , 2016, Saudi journal of biological sciences.

[17]  Jie Li,et al.  Dynamic Prediction Research of Silicon Content in Hot Metal Driven by Big Data in Blast Furnace Smelting Process under Hadoop Cloud Platform , 2018, Complex..

[18]  Longquan Yong Smooth Newton method to absolute value equation based on lower uniform smoothing approximation function , 2016 .

[19]  Nan Liu,et al.  Analytical solutions of Skyrme model , 2016 .

[20]  Song Jiang,et al.  Ensemble Prediction Algorithm of Anomaly Monitoring Based on Big Data Analysis Platform of Open-Pit Mine Slope , 2018, Complex..

[21]  G. Xiao,et al.  Selective Hydrogenolysis of Glycerol over Acid-Modified Co–Al Catalysts in a Fixed-Bed Flow Reactor , 2018 .

[22]  Zhenling Liu,et al.  Study on biomolecules in extractives of Camellia oleifera fruit shell by GC–MS , 2017, Saudi journal of biological sciences.