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| 정수 계획법(IP) 및 혼합 정수 계획법(MIP)× | 로케이션-할당 모델× | 서비스 영역 분석× | |
|---|---|---|---|
| 분야≠ | 최적화 | 공간분석 | 공간분석 |
| 계열 | Process / pipeline | Process / pipeline | Process / pipeline |
| 기원 연도≠ | 1958 | 1963 | 2001 |
| 창시자≠ | Ralph Gomory (cutting planes, 1958); land-and-doig branch-and-bound (1960) | Leon Cooper; S. L. Hakimi | Harvey Miller & Shih-Lung Shaw |
| 유형≠ | Mathematical optimisation — exact combinatorial method | Spatial facility-location optimization | Network GIS pipeline |
| 원전≠ | Wolsey, L.A. (1998). Integer Programming. Wiley. ISBN: 9780471283669 | Cooper, L. (1963). Location-allocation problems. Operations Research, 11(3), 331–343. DOI ↗ | Miller, H. J., & Shaw, S.-L. (2001). Geographic Information Systems for Transportation: Principles and Applications. Oxford University Press. ISBN: 978-0-19-512394-4 |
| 별칭≠ | IP, MIP, mixed-integer programming, mixed-integer linear programming | facility location, p-median problem, maximal covering location problem, yer-tahsis modelleri | Isochrone Analysis, Network Catchment Area Analysis, Travel-Time Polygon Analysis, Hizmet Alanı Analizi |
| 관련≠ | 4 | 4 | 3 |
| 요약≠ | Integer programming (IP), also called mixed-integer programming (MIP) when only some variables are restricted to whole numbers, is a branch of mathematical optimisation in which some or all decision variables must take integer or binary values. Building on linear programming, it was formalised through Ralph Gomory's cutting-plane method (1958) and the Land-and-Doig branch-and-bound algorithm (1960), and it has since become the standard exact framework for scheduling, assignment, routing, and resource-allocation problems. | Location-allocation models decide where to place a set of facilities and simultaneously assign demand points to them so as to optimize an objective such as total travel cost, worst-case distance, or population covered. Rooted in the operations-research work of Cooper (1963) and Hakimi (1964) and central to network GIS, they answer questions like where to site warehouses, hospitals, fire stations, or schools to best serve a spatially distributed population. | Service Area Analysis delineates the geographic region reachable from one or more origin facilities within a specified travel cost — typically time, distance, or generalized impedance — by traversing a real road or transit network. It is widely used by urban planners, public health officials, logistics managers, and emergency response coordinators who need to understand actual accessibility rather than simple straight-line buffers. |
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