AI constraint solver in Java to optimize the vehicle routing problem, employee rostering, task assignment, maintenance scheduling, conference scheduling and other planning problems.

Simple implementation of spatial skyline query algorithms

Java program to solve the 8 puzzle problem using branch and bound algorithm.

Command line tool for SAT solving, SMT solving in various theories (NRA, LRA, LIA, EQ, EQUF, BV)

🚀 Final Project Desain Analisis Algoritma (Divide and Conquer & Branch And Bound)

TSP using Brute Force , Branch And Bound, Dynamic Programming, DFS Approximation Algorithm

Java Travelling Salesman Problem (3 implementations)

Working on the Multiple Choice Knapsack Problem to design optimal packet schedulers for 5G data rates. (Jan - Feb 2020)

Knapsack Problem Solved Using Brute-Force, Backtrack and Branch and Bound Method for Algorithm Analysis Course in Telkom University

Theoretical analysis and implementation in Java of a Branch & Bound for the TSP that exploits the Langrangian relaxation of the 1-Tree to calculate the bounds efficiently.

Branch and Bound Algorithm for the 0/1 Knapsack Problem using Lagrangian Relaxation

A self-made demo for Advance Scheduling using branch and bound method

Travelling salesman problem: Artificial Inteligence, Computer Science, Middlesex University, London

Combinatory Optimization Algorithms | Backtracking + Branch and Bound using Greedy approach | University Project

A collection of Java implementations for algorithms and data structures.

Branch and bound implementation for flowshop permutation probleme (Séparation et évaluation )

Generate valid Magic square through branch and bound algorithm

BF, BnB and DP algorithms implementation for solving Travelling Salesman Problem. Academic project created at Wroclaw University of Science and Technology

All the programs that were developed in the DAA Lab

Exact solver for the Traveling Umpire Problem that uses a branch-and-bound algorithm with decomposition-based lower bounds, implementing the approach developed by T. Â. M. Toffolo (2017).