zanmdi

Recursive_DBSCAN_VRP

This repository contains a recursive implementation of DBSCAN clustering for Vehicle Routing Problem (VRP), enabling efficient clustering of delivery locations for optimal route planning

DSTOAP

Deep Spatio-Temporal Ocean Accident Prediction (DSTOAP)

Grid_Based_Accident_Severity_Prediction

This repository contains code for a grid-based approach to predicting accident severity. The method uses geographical data to enhance accuracy and efficiency in accident severity assessment.

Exact_VRPTW_Pyomo

This repository contains an exact Mixed-Integer Linear Programming (MILP) formulation for the Vehicle Routing Problem with Time Windows (VRPTW) implemented in Pyomo.

Chess-Pieces

This repository provides a C++ implementation of chess pieces, with each piece as a separate class for easy integration into larger chess projects. It includes basic functionalities like movement rules and capturing logic, designed for extensibility and customization. This serves as a foundational component for complex chess applications.

aws-last-mile-district-opt

zanmdi/Exact_VRPTW_Pyomo

This repository contains an exact Mixed-Integer Linear Programming (MILP) formulation for the Vehicle Routing Problem with Time Windows (VRPTW) implemented in Pyomo.

zanmdi/DSTOAP

Deep Spatio-Temporal Ocean Accident Prediction (DSTOAP)

zanmdi/Grid_Based_Accident_Severity_Prediction

This repository contains code for a grid-based approach to predicting accident severity. The method uses geographical data to enhance accuracy and efficiency in accident severity assessment.

zanmdi/Recursive_DBSCAN_VRP

This repository contains a recursive implementation of DBSCAN clustering for Vehicle Routing Problem (VRP), enabling efficient clustering of delivery locations for optimal route planning

zanmdi/Chess-Pieces

This repository provides a C++ implementation of chess pieces, with each piece as a separate class for easy integration into larger chess projects. It includes basic functionalities like movement rules and capturing logic, designed for extensibility and customization. This serves as a foundational component for complex chess applications.