Multi-dimensional Synergy Logistics Management Research On The Internet Of Thing Environment

Internet of things (IOT), an application of the next generation Internet, hasreceived much attention and will be a worldwide competition emphasis because IOTcan realize the interconnection between things and things, also between things andpeople. IOT will improve old industries and promote new ones. The popularizationand application of IOT will not only influence the progress of industrialization andinformationization, but also have far-reaching impact on social economy and humanlife. The construction of modern logistics service system should be sped up tocorrespond with the development of informationization. Modern logistics should bethe new force to promote the development of modern services as it has quickerreaction, integrated function, serialization service, normalized work, systematic target,modern method, networked organization, marketized organization and electronizedinformation. It is of great theoretical value and realistic meaning to study themulti-dimensional synergy of logistic management in IOT environment.Regarding to the need of multi-dimensional synergy in modern logistics in IOTsystem, the modern logistics order parameter equation is built and solved.Multi-dimensional synergetic study of modern logistics is proposed on the basis ofsensing layer, network layer, application layer and management layer of IOT and fromthe four-dimensional synergetic demand by technology synergy, information synergy,service synergy and management synergy. This paper consists of t heory basis,technical basis, application examples and application management. The studied in thispaper is of scientific significance and practical significance for the need ofmulti-dimensional synergy in modern logistics in IOT environment.(1) Research on classification of multi-dimensional synergy and order parameterequationsWe provide the classification of multi-dimensional synergy; develop modernlogistics multi-dimensional synergy order parameter equations and solve equations bythe Matlab. Then the order parameter which influences the synergy of system wasfound out. The problem of which is the synergy key factor of logistics system wassolved in this chapter.(2) Research on technology synergy and clustering algorithmThe mobile logistics service node perception was studied based on dynamic sensing technology synergy of IOT. The mobile logistics service node discoveryalgorithm was designed based on clustering algorithm. The effectiveness of thealgorithm was verified with Matlab analysis.(3) Research on information synergy and Traveling Salesman ProblemWith information synergy of IOT network layer as the prerequisite, we developthe information synergy distribution simulation mode. The simulation mode can beused to comparing the distribution path and time under the station of informationsynergy and information no-synergy. The simulation result demonstrated theinformation synergy have positive effect on logistic system.(4) Research on service synergy and Service quality evaluation criteriaIn order to improve the IOT application service synergy effect and service level,the service quality evaluation criteria system of modern logistics is proposed based onsimple and multi-user, which provides a scientific method for evaluating the servicequality of modern logistics.(5) Research on management synergy and Benders Decomposition MethodTo IOT management synergy and management informatization as the goal, thepick-up process using vehicles under multi-spot producing after reorganization inLogistic Industry was chosen as the subject, and a mixed integer programming for itwas constructed. Considering the characteristics of variables in the MIP, the BendersDecomposition Method was introduced to solve the original problem. With the AMPLMathematical modeling language, the modified algorithm was implemented, andseveral numerical examples with three different parameters was investigated,compared with the Cplex solver, to verify its feasibility and effectiveness.This paper consists of theory basis, technical basis, application examples andapplication management. The studied in this paper is of scientific significance andpractical significance for the need of multi-dimensional synergy in modern logisticsin IOT environment.