Muon reconstruction is a research area in particle physics that focuses on the identification and measurement of muons produced in high-energy particle collisions. Muons are elementary particles similar to electrons, but much heavier, and are commonly produced in processes involving the decay of heavier particles such as the W and Z bosons. The goal of muon reconstruction is to accurately detect and measure the properties of muons, such as their momentum, charge, and direction of travel. This involves using sophisticated particle detectors, such as drift chambers, calorimeters, and muon detectors, to accurately track the path of muons as they pass through the detector. Muon reconstruction plays a crucial role in a wide range of particle physics experiments, including those conducted at large particle accelerators such as the Large Hadron Collider (LHC) at CERN. By accurately reconstructing muons, researchers can study fundamental properties of particles and interactions, search for new particles, and test the predictions of theoretical models such as the Standard Model of particle physics.