The quick development of internet technology and electronic commerce has driven the demand of internationalization of logistics services. The internationalization trend of logistics requests that local logistics system should integrate with other information systems in terms of data, business and knowledge. However, the integration among heterogeneous systems has always been the key problem to the development of internet technology. More and more information systems of the logistics enterprises become “information solitary islands”, due to the incompatibility of IT en-vironment, database format or knowledge structure. As the demand of business and technique changing, a large number of “solitary islands” are destined to be legacy systems, which causing a great waste of resources. The article employed the SOA (Service Oriented Architecture) framework and ESB (Enterprise Service Bus) technology to solve integration problems among heterogeneous systems. SOA is a software architecture theory, which based on services as components. ESB is employed to supply SOA with base architecture of message-oriented middleware in the term of in-cremental bus. However, there isn’t any integrated design method for logistics system based on SOA & ESB up to now. To fill the gap, this article presents an integrated design method through analyzing the integration environment of logistics platform, building service directory, designing system architecture and service components. The most significant results show that Firstly, this ar-ticle has presented a stratified implementation model for logistics platform to implement SOA con-cept into system model framework, so as to guide the design and development. Secondly, it also presents methods of system analysis and design with samples in following steps: service catalogue design, integral architecture design, service design, service and module depending design and ser-vice implementation design. The whole design method has been used successfully in actual project of design and development of international logistics platform. It is proved that this method can effi-ciently create integrated service logic, reduce the cost of design and development, and improve the compatibility of logistics system.