| [39] | ・ Optimal location and capacities of various facilities. ・ Allocation of material flows between facilities. | P |
|
|
| [67] | ・ Location of WEEE intermediate storage points. ・ Critical path of WEEE considering intermediate storage points. | P |
| P |
| [57] | ・ Facility location, production of each facilities and transported quantity between locations. ・ Optimal inventory to be held at each period. | P | P |
|
| [60] | ・ Location problem with choice of technology. | P |
|
|
| [17] | ・ Facility location and capacity of distribution, production/recovery and disposal centres. ・ Optimal product flows between facilities. | P |
|
|
| [41] | ・ Facility location of hybrid distribution/collection, production/recovery and disposal centres. ・ Optimal quantity flows between network facilities. | P |
|
|
| [42] | ・ Number and location of collection/inspection centres. ・ Optimal quantity of flow between facilities. | P |
|
|
| [8] | ・ Location of collection and return centre. ・ Allocation of product flow between facilities. | P |
|
|
| [23] | ・ Design integrated traditional and reverse supply chain model. | P |
|
|
| [49] | ・ Production, inventory and transportation planning for the waste management. |
| P |
|
| [58] | ・ Location and capacity decision of inspection centres and remanufacturing facilities. ・ Optimal inventory to be held or purchased at remanufacturing plants. | P | P |
|
| [25] | ・ Model a reverse supply chain network design problem considering specified returns. | P |
|
|
| [50] | ・ Optimize quantity of new and recovered products. |
| P |
|
| [59] | ・ Location and flow allocation of products for each facilities integrated with queuing relationship. | P | P |
|
| [24] | ・ Design and model the reliable network for facility location. | P |
|
|
| [68] | ・ Flexible measure of performance outcomes for 3PLs in reverse logistics framework. | P |
| P |
| [26] | ・ Design and planning forward and reverse logistics. | P |
|
|
| [27] | ・ Develop optimal cross-stage reverse logistics model. | P |
|
|
| [69] | ・ Location-allocation problem of reverse logistics. ・ Vehicle routing problem. | P |
| P |
| [70] | ・ Service area establishment for each depot. ・ Scheduling of collection routes for each vehicles. |
| P | P |
| [61] | ・ Subset of disassembly centres and processing centres to be opened. ・ Transportation strategy that satisfy demand by manufacturing centres and recycling centres. | P | P |
|
| [65] | ・ Vehicle routing problem with simultaneous delivery and pick-up. |
|
| P |
| [46] | ・ Optimal location and products assign for each facilities. | P |
|
|
| [14] | ・ Optimal number of manufacturing and remanufacturing product per period. |
| P |
|
| [44] | ・ Design and planning the facility location and allocation. | P |
|
|
| [43] | ・ Facility location and capacities. | P |
|
|
| [29] | ・ Facility location problem. ・ Optimal flow of products between facilities. | P |
|
|
| [71] | ・ Location-inventory-routing problem. | P | P | P |
| [4] | ・ Optimal vehicle routing. ・ Optimal quantities of production to be produced and obtained from the supplier. | P |
| P |
| [30] | ・ Facility location, capacity expansion and transportation quantity between facilities. | P |
|
|
| [45] | ・ Location-allocation problem in reverse logistics. | P |
|
|