【導(dǎo)讀】鎮(zhèn)江云川電子技術(shù)有限公司。會(huì)計(jì)信息系統(tǒng)設(shè)計(jì)方案。專業(yè)班級(jí)：05信息。五個(gè)部分，在第一個(gè)部分，先是介紹了鎮(zhèn)江云川電子技術(shù)有限公司的企業(yè)概況和本信息系。統(tǒng)的概況，并強(qiáng)調(diào)了本信息系統(tǒng)的七大特點(diǎn)；在第二個(gè)部分，本文介紹了本項(xiàng)目應(yīng)用到的。系統(tǒng)開發(fā)方法是原型法，并針對(duì)原型法的概念、建立原型的過程、初始原型的構(gòu)造原則、劃的總體目標(biāo)和五大子目標(biāo)，并描述了本系統(tǒng)目標(biāo)的特點(diǎn)和系統(tǒng)涵蓋的范圍，并對(duì)功能規(guī)。劃部分做了簡(jiǎn)單的闡述；在第四個(gè)部分，本文詳細(xì)的分析了本項(xiàng)目的系統(tǒng)需求分析，并在。需求分析階段針對(duì)會(huì)計(jì)核算的方法、會(huì)計(jì)核算的步驟和會(huì)計(jì)核算的業(yè)務(wù)流程做了詳細(xì)的分。工資核算子系統(tǒng)、固定資產(chǎn)核算子系統(tǒng)和系統(tǒng)維護(hù)子系統(tǒng)共五個(gè)子系統(tǒng)組成，并對(duì)各個(gè)子。通過本會(huì)計(jì)信息系統(tǒng)的設(shè)計(jì)，讓我掌握了設(shè)計(jì)信息系統(tǒng)的一些基本方法和思路，并且

　　

【正文】 fficient radio frequency cover ranges of the readers are examined and the most suitable locations for the installation of the RFID devices are determined. Besides, a RFID casebased logistics resource management system (RLRMS) is proposed to improve the efficiency and effectiveness of orderpicking operations in a warehouse by means of formulating a reliable RFID technology implementation plan. This will enable warehouse resources to be located on a realtime basis and instant material handling solutions will be suggested for handling the customer orders automatically. The feature of realtime and automatic data retrieval in the proposed system is support by the RFID technology, which also facilitates constructing an effective triangular localization scheme to determine the exact locations of warehouse resources. The collected data is then pared with the attributes stored in an embedded casebased engine to determine the appropriate material handling equipment to handle the orderpicking operations. Moreover, a material handling solution formulation model is constructed by mathematic algorithms to generate the shortest pickup sequence for the appropriate material handling equipment. In doing this, the objectives of maximizing the productivity of warehouse and minimizing the operation costs in a warehouse are achieved. 2. Literature review . Current approach in managing logistics resources According to (Kithara, 2021) and (Liu et al., 2021), a supply chain is a valuable information sharing channel among the suppliers, manufacturing and storage facilities, distributors and customers for facilitating the key business activities of the sale, production and delivery of a particular product. Thus, the main principle of supply chain management (SCM) is to integrate effectively the material flows and related information within the demand and supply processes (Soroor amp。 Tarokh, 2021). However, due to the global extension of supply chain works, enterprises need to collaborate with suppliers, customers, or even petitors in different time zones, across numerous anizational boundaries, and in a variety of cultures. Under these circumstances, the challenge of allocating production, transportation, and inventory resources to satisfy demand is daunting (SmirchLevi, Kaminsky, amp。 SimchiLevi, 2021). 4 Recent trends towards the management of logistics resources have the potential to minimize the impact of the physical dispersion of supply chain members. The objective of logistics resources management (LRM) is to determine the most effective approach for allocating the appropriate logistics resources to different logistics functions, facilitate information flow and share knowledge through a supply pipeline, provide feasible collaborative channels for supply chain partners to provide superior customer services (Ross, 2021). In LRM, five logistics operations areas are covered in a supply chain work. These are: (i) freight cost and service management, (ii) fleet management, (iii) load planning, (iv) routing and scheduling, and, (v) warehouse management (Poirier amp。 Bauer, 2021). Within these logistics operations areas, warehouse management is the most important function for linking the supply chain partners to formulate the seamless integration of the whole supply chain and for ensuring the smooth flow of products inside the work (Gu, Goetschalckx, amp。 McGinnis, 2021). With such an arrangement, it is essential to handle the warehouse resources, such as stock keeping units (SKUs), pallets and racks, pallet trucks and forklifts, and warehouse staff members, efficiently and effectively in order to have smooth manufacturing operations, to reduce inventory, lower processing, storage, and transshipment costs, and increase productivity within facilities (Vogt et al., 2021). Within the chain, currently, warehouse management systems (WMSs) are adopted to handle the warehouse resources and operations. However, these systems are lacking in realtime information sharing ability as the data collection technique is either manualbased or barcode based. Therefore, WMSs are incapable of capturing realtime information or of visualizing the actual working status (Huang, Zhang, amp。 Jiang, 2021). In addition, the positions of the resources are not located accurately by current data collection techniques (Shih, Hsieh, amp。 Chen, 2021), resulting in inappropriate resource allocation to warehouse operations. Therefore, it is essential to implement realtime data management techniques for locating the resources accurately to support warehouse operations effectively. . Current realtime data management techniques for object location tracking There are several realtime data management techniques adopted for facilitating information sharing in the existing market. Some of the techniques are also capable of providing object location information. In the outdoor environment, the most well known technology adopted in location tracking is the global position system (GPS). It is a spacebased radionavigation system that uses 24 satellites orbiting around the Earth and receivers to locate objects, in terms of 5 height, longitude and latitude coordinates, on Earth (Posturing, Barrie, amp。 Cotroneo, 2021). The main application of GPS is to determine the location of vehicles and the actual traffic condition. Although it locates an object accurately in the outdoor environment, it is unable to locate objects inside the buildings. Hence, Cell of origin (COO) or CellID is proposed to locate objects between indoor and outdoor environment. COO is a workbased location system which uses the latitude and longitude coordinates of the base station and transmitters serving the mobile device as the location of the user (Jagoe, 2021). Nevertheless, it is i