• 제목/요약/키워드: 배낭문제

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다분할(多分割) 선형배낭문제(線型背囊問題) (The multi-divisional linear knapsack problem)

  • 원중연;정성진
    • 대한산업공학회지
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    • 제17권1호
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    • pp.127-130
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    • 1991
  • The multi-divisional knapsack problem is defined as a binary knapsack problem where each of mutually exclusive divisions has its own capacity. We consider the relaxed LP problem and develop a transformation which converts the multi-divisional linear knapsack problem into smaller size linear knapsack problems. Solution procedures and a numerical example are presented.

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유한 정수 변수를 포함한 가변용량 (0,1)-배낭문제에 대한 절단평면

  • 이경식;박성수
    • 한국경영과학회:학술대회논문집
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    • 대한산업공학회/한국경영과학회 2004년도 춘계공동학술대회 논문집
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    • pp.96-101
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    • 2004
  • In this paper, we propose an effective cut generation method based on the Chvatal-Gomory procedure for a variable-capacity (0,1)-Knapsack problem, which is the same problem as the ordinary binary knapsack problem except that a binary capacity variable is newly introduced. We first derive a class of valid inequalities for the problem using Chvatal-Gomory procedure, then analyze the associated separation problem. Based on the results, we show that there exists a pseudopolynomial time algorithm to solve the separation problem. Preliminary computational results are presented which show the effectiveness of the proposed cut generation method.

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다중제약 배낭문제를 위한 새로운 유전 알고리즘 (A Novel Genetic Algorithm for Multiconstrained Knapsack Problem)

  • 이상욱;석상문;이주상;장석철;안병하
    • 한국경영과학회:학술대회논문집
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    • 한국경영과학회/대한산업공학회 2005년도 춘계공동학술대회 발표논문
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    • pp.773-774
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    • 2005
  • The knapsack problem (KP) is one of the traditional optimization problems. Specially, multiconstrained knapsack problem (MKP) is well-known NP-hard problem. Many heuristic algorithms and evolutionary algorithms have tackled this problem and shown good performance. This paper presents a novel genetic algorithm for the multiconstrained knapsack problem. The proposed algorithm is called 'Adaptive Link Adjustment'. It is based on integer random key representation and uses additional ${\alpha}$ and ${\beta}$-process as well as selection, crossover and mutation. The experiment results show that it can be archive good performance.

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용량이 변화하는 (0, 1)-배낭문제에 대한 절단평면 생성방안 (A Cut Generation Method for the (0, 1)-Knapsack Problem with a Variable Capacity)

  • 이경식;박성수
    • 한국경영과학회지
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    • 제25권3호
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    • pp.1-15
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    • 2000
  • In this paper, we propose a practical cut generation method based on the Chvatal-Gomory procedure for the (0, 1)-Knapsack problem with a variable capacity. For a given set N of n items each of which has a positive integral weight and a facility of positive integral capacity, a feasible solution of the problem is defined as a subset S of N along with the number of facilities that can satisfy the sum of weights of all the items in S. We first derive a class of valid inequalities for the problem using Chvatal-Gomory procedure, then analyze the associated separation problem. Based on the results, we develop an affective cut generation method. We then analyze the theoretical strength of the inequalities which can be generated by the proposed cut generation method. Preliminary computational results are also presented which show the effectiveness of the proposed cut generation method.

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수정(修正)된 다중선택(多重選択) 배낭문제(背囊問題)의 해법(解法)에 관한 연구(硏究) (A Study on the Modified Multiple Choice Knapsack Problem)

  • 원중연;정성진
    • 대한산업공학회지
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    • 제9권2호
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    • pp.3-8
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    • 1983
  • The multiple choice knapsack problem is modified. To solve this modified multiple choice knapsack problem, Lagrangian relaxation is used, and to take advantage of the special structure of subproblems obtained by decomposing this relaxed Lagrangian problem, a modified ranking algorithm is used. The K best rank order solutions obtained from each subproblem as a result of applying modified ranking algorithm are used to formulate restricted problems of the original problem. The optimality for the original problem of solutions obtained from the restricted problems is judged from the upper bound and lower bounds calculated iteratively from the relaxed problem and restricted problems, respectively.

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일반화된 일반상한제약을 갖는 이차원 선형계획 배낭문제 연구 (On a Two Dimensional Linear Programming Knapsack Problem with the Generalized GUB Constraint)

  • 원중연
    • 대한산업공학회지
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    • 제37권3호
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    • pp.258-263
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    • 2011
  • We study on a generalization of the two dimensional linear programming knapsack problem with the extended GUB constraint, which was presented in paper Won(2001). We identify some new parametric properties of the generalized problem and derive a solution algorithm based on the identified parametric properties. The solution algorithm has a worst case time complexity of order O($n^2logn$), where n is the total number of variables. We illustrate a numerical example.

일반 다중선택 다분할 선형계획 배낭문제 (The Generalized Multiple-Choice Multi-Divisional Linear Programming Knapsack Problem)

  • 원중연
    • 대한산업공학회지
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    • 제40권4호
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    • pp.396-403
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    • 2014
  • The multi-divisional knapsack problem is defined as a binary knapsack problem where each mutually exclusive division has its own capacity. In this paper, we present an extension of the multi-divisional knapsack problem that has generalized multiple-choice constraints. We explore the linear programming relaxation (P) of this extended problem and identify some properties of problem (P). Then, we develop a transformation which converts the problem (P) into an LP knapsack problem and derive the optimal solutions of problem (P) from those of the converted LP knapsack problem. The solution procedures have a worst case computational complexity of order $O(n^2{\log}\;n)$, where n is the total number of variables. We illustrate a numerical example and discuss some variations of problem (P).

일반 다중선택 선형배낭문제의 확장문제에 대한 효율적인 해법 (An Efficient Algorithm for an Extension of the Generalized Lienar Multiple Choice Knapsack Problem)

  • 원중영;전싱진
    • 한국경영과학회지
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    • 제17권1호
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    • pp.31-41
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    • 1992
  • An extension of generalized linear multiple choice knapsack problem [1] is presented and an algorithm of order 0([n .n$_{max}$]$_{2}$) is developed by exploiting its extended properties, where n and n$_{max}$ denote the total number of variables and the cardinality of the largest multiple choice set, respectively. A numerical example is presented and computational aspects are discussed.sed.

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IoT based Cleaner Control System using Smart Devices

  • Ye Ho Shin
    • 한국컴퓨터정보학회논문지
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    • 제28권5호
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    • pp.1-8
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    • 2023
  • 이 논문에서는 스마트폰 또는 스마트 워치와 같은 스마트 디바이스를 이용한 IoT 기반의 배낭식 청소기 제어 시스템을 구현한다. 구현 시스템은 제어모듈 제작, 제어 모듈 프로그래밍, 스마트 디바이스 프로그래밍으로 이루어져 있다. 이 중 제어 모듈은 아두이노 나노, HM-10 BLE 모듈 및 릴레이를 기본 부품으로 하여 제작하였다. 스마트 디바이스는 제어 모듈과 양방향 BLE 통신으로 신호 교환을 하고 있으며, 이를 통해 청소기의 시작/정지를 제어 할 수 있게 한다. 배낭식 청소기는 사다리 등을 이용해야 하는 높은 장소를 청소할 때 효과적이다. 그러나 배낭식 청소기를 시작/정지하기 위해 메고 있는 청소기를 벗어야 하는 경우가 종종 발생한다. 이 논문에서 구현한 사물인터넷 기반의 청소기 제어 시스템은 청소기를 벗지 않으면서도 청소기의 시작/정지를 제어할 수 있도록 함으로써 문제를 근본적으로 해결하였다.

타부탐색, 메모리, 싸이클 탐지를 이용한 배낭문제 풀기

  • 고일상
    • 한국경영과학회:학술대회논문집
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    • 대한산업공학회/한국경영과학회 1996년도 춘계공동학술대회논문집; 공군사관학교, 청주; 26-27 Apr. 1996
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    • pp.514-517
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    • 1996
  • In solving multi-level knapsack problems, conventional heuristic approaches often assume a short-sighted plan within a static decision enviornment to find a near optimal solution. These conventional approaches are inflexible, and lack the ability to adapt to different problem structures. This research approaches the problem from a totally different viewpoint, and a new method is designed and implemented. This method performs intelligent actions based on memories of historic data and learning. These actions are developed not only by observing the attributes of the optimal solution, the solution space, and its corresponding path to the optimal solution, but also by applying human intelligence, experience, and intuition with respect to the search strategies. The method intensifies, or diversifies the search process appropriately in time and space. In order to create a good neighborhood structure, this method uses two powerful choice rules that emphasize the impact of candidate variables on the current solution with respect to their profit contribution. A side effect of so-called "pseudo moves", similar to "aspirations", supports these choice rules during the evaluation process. For the purpose of visiting as many relevant points as possible, strategic oscillation between feasible and infeasible solutions around the boundary is applied for intensification. To avoid redundant moves, short-term (tabu-lists), intermediate-term (cycle detection), and long-term (recording frequency and significant solutions for diversification) memories are used. Test results show that among the 45 generated problems (these problems pose significant or insurmountable challenges to exact methods) the approach produces the optimal solutions in 39 cases.lutions in 39 cases.

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