The emergence of Beyond 5G(B5G)and 6G networks translated personal and industrial operations highly effective,reliable,and gainful by speeding up the growth of next generation Internet of Things(IoT).Industrial equipm...The emergence of Beyond 5G(B5G)and 6G networks translated personal and industrial operations highly effective,reliable,and gainful by speeding up the growth of next generation Internet of Things(IoT).Industrial equipment in 6G encompasses a huge number of wireless sensors,responsible for collecting massive quantities of data.At the same time,6G network can take real-world intelligent decisions and implement automated equipment operations.But the inclusion of different technologies into the system increased its energy consumption for which appropriate measures need to be taken.This has become mandatory for optimal resource allocation in 6G-enabled industrial applications.In this scenario,the current research paper introduces a new metaheuristic resource allocation strategy for clusterbased 6G industrial applications,named MRAS-CBIA technique.MRASCBIA technique aims at accomplishing energy efficiency and optimal resource allocation in 6G-enabled industrial applications.The proposed MRAS-CBIR technique involves three major processes.Firstly,Weighted Clustering Technique(WCT)is employed to elect the optimal Cluster Heads(CHs)or coordinating agents with the help of three parameters namely,residual energy,distance,and node degree.Secondly,Decision Tree-based Location Prediction(DTLP)mechanism is applied to determine the exact location of Management Agent(MA).Finally,Fuzzy C-means with Tunicate Swarm Algorithm(FCMTSA)is used for optimal resource allocation in 6G industrial applications.The performance of the proposed MRAS-CBIA technique was validated and the results were examined under different dimensions.The resultant experimental values highlighted the superior performance of MRAS-CBIR technique over existing state-of-the-art methods.展开更多
This paper discusses the advantages of IPv6 technology compared with IPv4, such as address capacity, automatic address allocation, mobile connection characteristics, security and confidentiality, quality of service, a...This paper discusses the advantages of IPv6 technology compared with IPv4, such as address capacity, automatic address allocation, mobile connection characteristics, security and confidentiality, quality of service, and multicast transmission. The key summary summarizes the application of IPv6 technology in the four industries of power, finance, home, and education. Since there is almost no application of IPv6 technology in the public security industry in the previous literature, the author proposes the application innovation of IPv6 technology in the public security industry according to his own industry. IPv6 technology can be applied to the work communication, information exchange, case investigation, and social security management of public security departments, which helps to improve the level of public security work, the quality of the people’s police, and the efficiency of public security affairs, thereby improving the safety and satisfaction of the general public. Spend. It has a certain reference significance to make a great contribution to reducing the crime rate, creating a harmonious social environment, and truly realizing the integration of police and civilians.展开更多
The industrialization of electrochemical synthesis of 3,6-dichloropicolinic acid(3,6-DCP) from 3,4,5,6-tetrachloropicolinic acid(3,4,5,6-TCP) in a tank-type undivided electrolytic cell with silver cathode was investig...The industrialization of electrochemical synthesis of 3,6-dichloropicolinic acid(3,6-DCP) from 3,4,5,6-tetrachloropicolinic acid(3,4,5,6-TCP) in a tank-type undivided electrolytic cell with silver cathode was investigated.The experimental results showed that the electrolytic performance greatly depended on the operation parameters,such as flow rate of electrolyte,temperature,and concentration of NaOH.The reduction of 3,4,5,6-TCP to 3,6-DCP was favored by increasing temperature and flow rate of electrolyte.Industrialization tests of electrochemical synthesis of 3,6-DCP were conducted under the following conditions: silver cathode,temperature 313 K,flow rate 6 cm·s-1,concentration of NaOH 8%(mass),concentration of 3,4,5,6-TCP 5%(mass),cathode current density 600 A·m-2.The current efficiency and conversion ratio of 3,4,5,6-TCP were more than 76% and 99%,respectively.The yield of 3,6-DCP was up to 90% and DC power consumption was 2.939 kW·h·(kg 3,6-DCP)-1.The purity of the product was higher than 95%,and its melting point was 151—153℃.展开更多
用TG-DTG-DSC方法研究富氮含能化合物3,7-二硝亚氨基-2,4,6,8-四氮杂双环[3.3.0]辛烷的热性能,用量子化学方法研究其电子结构及爆轰性能。结果表明,3,7-二硝亚氨基-2,4,6,8-四氮杂双环[3.3.0]辛烷热分解是一个二阶段过程,在320℃左右有...用TG-DTG-DSC方法研究富氮含能化合物3,7-二硝亚氨基-2,4,6,8-四氮杂双环[3.3.0]辛烷的热性能,用量子化学方法研究其电子结构及爆轰性能。结果表明,3,7-二硝亚氨基-2,4,6,8-四氮杂双环[3.3.0]辛烷热分解是一个二阶段过程,在320℃左右有一个剧烈的放热峰。其热分解活化能和指前因子分别为225.80 k J·mol-1和1017.71s-1。考虑到其热爆炸临界温度为600.25 K,活化熵为80.18 J·mol-1·k-1,活化焓为220.92 k J·mol-1,吉布斯自由能为173.87 k J·mol-1。利用K-J公式得到其爆速为8.70km·s-1,爆压为34.34 GPa,表明3,7-二硝亚氨基-2,4,6,8-四氮杂双环[3.3.0]辛烷可用作潜在的高能、稳定的含能材料的候选物。展开更多
文摘The emergence of Beyond 5G(B5G)and 6G networks translated personal and industrial operations highly effective,reliable,and gainful by speeding up the growth of next generation Internet of Things(IoT).Industrial equipment in 6G encompasses a huge number of wireless sensors,responsible for collecting massive quantities of data.At the same time,6G network can take real-world intelligent decisions and implement automated equipment operations.But the inclusion of different technologies into the system increased its energy consumption for which appropriate measures need to be taken.This has become mandatory for optimal resource allocation in 6G-enabled industrial applications.In this scenario,the current research paper introduces a new metaheuristic resource allocation strategy for clusterbased 6G industrial applications,named MRAS-CBIA technique.MRASCBIA technique aims at accomplishing energy efficiency and optimal resource allocation in 6G-enabled industrial applications.The proposed MRAS-CBIR technique involves three major processes.Firstly,Weighted Clustering Technique(WCT)is employed to elect the optimal Cluster Heads(CHs)or coordinating agents with the help of three parameters namely,residual energy,distance,and node degree.Secondly,Decision Tree-based Location Prediction(DTLP)mechanism is applied to determine the exact location of Management Agent(MA).Finally,Fuzzy C-means with Tunicate Swarm Algorithm(FCMTSA)is used for optimal resource allocation in 6G industrial applications.The performance of the proposed MRAS-CBIA technique was validated and the results were examined under different dimensions.The resultant experimental values highlighted the superior performance of MRAS-CBIR technique over existing state-of-the-art methods.
文摘This paper discusses the advantages of IPv6 technology compared with IPv4, such as address capacity, automatic address allocation, mobile connection characteristics, security and confidentiality, quality of service, and multicast transmission. The key summary summarizes the application of IPv6 technology in the four industries of power, finance, home, and education. Since there is almost no application of IPv6 technology in the public security industry in the previous literature, the author proposes the application innovation of IPv6 technology in the public security industry according to his own industry. IPv6 technology can be applied to the work communication, information exchange, case investigation, and social security management of public security departments, which helps to improve the level of public security work, the quality of the people’s police, and the efficiency of public security affairs, thereby improving the safety and satisfaction of the general public. Spend. It has a certain reference significance to make a great contribution to reducing the crime rate, creating a harmonious social environment, and truly realizing the integration of police and civilians.
文摘The industrialization of electrochemical synthesis of 3,6-dichloropicolinic acid(3,6-DCP) from 3,4,5,6-tetrachloropicolinic acid(3,4,5,6-TCP) in a tank-type undivided electrolytic cell with silver cathode was investigated.The experimental results showed that the electrolytic performance greatly depended on the operation parameters,such as flow rate of electrolyte,temperature,and concentration of NaOH.The reduction of 3,4,5,6-TCP to 3,6-DCP was favored by increasing temperature and flow rate of electrolyte.Industrialization tests of electrochemical synthesis of 3,6-DCP were conducted under the following conditions: silver cathode,temperature 313 K,flow rate 6 cm·s-1,concentration of NaOH 8%(mass),concentration of 3,4,5,6-TCP 5%(mass),cathode current density 600 A·m-2.The current efficiency and conversion ratio of 3,4,5,6-TCP were more than 76% and 99%,respectively.The yield of 3,6-DCP was up to 90% and DC power consumption was 2.939 kW·h·(kg 3,6-DCP)-1.The purity of the product was higher than 95%,and its melting point was 151—153℃.
基金National Defense Advanced Research Projects (JKY-2012-1317)
文摘用TG-DTG-DSC方法研究富氮含能化合物3,7-二硝亚氨基-2,4,6,8-四氮杂双环[3.3.0]辛烷的热性能,用量子化学方法研究其电子结构及爆轰性能。结果表明,3,7-二硝亚氨基-2,4,6,8-四氮杂双环[3.3.0]辛烷热分解是一个二阶段过程,在320℃左右有一个剧烈的放热峰。其热分解活化能和指前因子分别为225.80 k J·mol-1和1017.71s-1。考虑到其热爆炸临界温度为600.25 K,活化熵为80.18 J·mol-1·k-1,活化焓为220.92 k J·mol-1,吉布斯自由能为173.87 k J·mol-1。利用K-J公式得到其爆速为8.70km·s-1,爆压为34.34 GPa,表明3,7-二硝亚氨基-2,4,6,8-四氮杂双环[3.3.0]辛烷可用作潜在的高能、稳定的含能材料的候选物。