Robot system for cell sites and towers

What is claimed is: 1 . A robot for performing audit tasks of cell towers, the robot comprising: a body portion configured to hold various electronic components of the robot further comprising monitoring equipment disposed thereon; one or more arms extending from the body portion adapted to manipulate components of a cell tower and to facilitate movement of the robot on the cell tower; wireless interfaces adapted to allow wireless control of the robot; and a processor adapted to utilize a Machine Learning (ML) model to learn and improve an ability of the robot to work on the cell tower over time. 2 . The robot of claim 1 , wherein the one or more arms further comprise claws adapted to grip tools and components of the cell tower. 3 . The robot of claim 2 , wherein the claws comprise image sensors disposed on a distal end of the claws for capturing image data of difficult to reach areas of the cell tower. 4 . The robot of claim 1 , further comprising magnets disposed on the body portion, wherein the magnets are one of permanent magnets and selectively enabled magnets adapted to secure the robot to the cell tower. 5 . The robot of claim 1 , wherein the body portion further comprises storage compartments configured to hold tools and equipment. 6 . The robot of claim 1 , wherein the robot is adapted to operate in adverse weather conditions. 7 . The robot of claim 1 , wherein the body portion further comprises elongated compartments, and wherein the one or more arms are configured to stow within the elongated compartments. 8 . The robot of claim 1 , wherein the robot is configured to be controlled by one of a user in a remote location, a user at a cell tower site, and autonomously via direct programing. 9 . A robot for performing audit tasks of cell towers, the robot comprising: a body portion configured to hold various electronic components of the robot comprising monitoring equipment disposed thereon; one or more arms extending from the body portion adapted to manipulate components of a cell tower and to facilitate movement of the robot on the cell tower; wireless interfaces adapted to allow wireless control of the robot; a processor coupled to the wireless interfaces; and memory storing instructions that, when executed, cause the processor to: process commands to position the robot on the cell tower to perform an audit task chosen from a plurality of operations to the cell tower; process commands to capture data associated with components being audited based on the audit being performed; and process the data collected to verify whether the component being audited is in a predetermined condition; wherein the instructions further cause the processor to utilize a Machine Learning (ML) model to learn and improve an ability of the robot to work on the cell tower over time. 10 . The robot of claim 9 , wherein the plurality of operations include any of inspecting and monitoring a component of the cell tower, performing repair, and installing components of the cell tower. 11 . The robot of claim 9 , wherein the robot is configured to be controlled by one of a user in a remote location, a user at a cell tower site, and autonomously via direct programing. 12 . The robot of claim 9 , wherein the one or more arms further comprise claws adapted to grip tools and components of the cell tower. 13 . The robot of claim 12 , wherein data is captured by image sensors disposed on a distal end of the claws. 14 . The robot of claim 9 , further comprising magnets disposed on the body portion, wherein the magnets are one of permanent magnets and selectively enabled magnets adapted to secure the robot to the cell tower, and wherein the instructions further cause the processor to control the selectively enabled magnets. 15 . The robot of claim 9 , wherein the body portion further comprises storage compartments configured to hold tools and equipment. 16 . The robot of claim 9 , wherein the robot is adapted to operate in adverse weather conditions. 17 . The robot of claim 9 , wherein the body portion further comprises elongated compartments, and wherein the one or more arms are configured to stow within the elongated compartments. 18 . A method comprising the steps of: positioning a robot on a cell tower to perform an audit task chosen from a plurality of operations to the cell tower; capturing data associated with components being audited based on the audit being performed; processing the data collected to verify whether the component being audited is in a predetermined condition; and utilizing a Machine Learning (ML) model to learn and improve the robot's ability to work on the cell tower over time. 19 . The method of claim 18 , wherein the plurality of operations include any of inspecting and monitoring a component of the cell tower, performing repair, and installing components of the cell tower.