Multiple machine identification system and method

What is claimed is: 1 . A local fleet connectivity system for identifying multiple machines, the system comprising: a plurality of connectivity modules, each connectivity module communicatively and physically coupled to one of a plurality of machines, each connectivity module configured to communicate with the other connectivity modules via a network connection; and a user device configured to communicate with the connectivity modules via a network connection; wherein, in response to a user selection on an application hosted on the user device, two or more machines of the plurality of machines are configured to generate one or both of an audible signal or a visual signal, wherein each of the two or more machines is configured to generate a different audible signal or visual signal in response to the user selection; wherein the two or more machines comprise a user-selected first machine and one or more other machines that are required to be moved in order to move the user-selected first machine to a selected location, wherein the one or more other machines are automatically selected by the application based on the selection of the user-selected first machine. 2 . The local fleet connectivity system of claim 1 , wherein the connectivity modules of the two or more machines each comprise a light configured to illuminate to generate the visual signal, wherein the light of each connectivity module of the two or more machines illuminates with a different color in response to the user selection. 3 . The local fleet connectivity system of claim 1 , wherein the user selection comprises dynamically filtering the plurality of machines according to one or more selectable attributes or criteria. 4 . The local fleet connectivity system of claim 3 , wherein the one or more selectable attributes or criteria comprise one or more of a machine type, a battery status, a machine model number, a machine manufacturer, a machine location, a machine work site tag, a machine status, a repair status, a DTC status, a fuel status, a use status, or a number of other machines that must be used to access or move a machine. 5 . The local fleet connectivity system of claim 1 , wherein a control module of each of the one or more other machines is configured (i) to receive instructions via the connectivity module of the associated machine and (ii) to control the associated machine to move the associated machine out of a path of the user-selected first machine to the selected location. 6 . A local fleet connectivity system for identifying multiple machines at a site, the system comprising: one or more processing circuits comprising one or more memory devices coupled to one or more processors, the one or more memory devices configured to store instructions thereon that, when executed by the one or more processors, cause the one or more processors to: communicate across a wireless network by sending messages to a plurality of machines and a user device each communicatively connected to the network; generate a graphical user interface (GUI) comprising a list of the plurality of machines; send the GUI to a screen of the user device for display; receive, via the GUI, an indication of a selection one or more attributes or criteria; filter, in response to receiving the indication, the list to create a subset of machines, from the plurality of machines, that match the selected attributes or criteria; receive, via the GUI, an indication of a required number of machines; identify a subgroup of machines from the subset of machines, wherein the subgroup of machines comprises the required number of machines; and send a message instructing each of the subgroup of machines to generate one or both of a visual indication or an audible indication, the message instructing each machine to generate a visual or audible indication that is different than visual or audible indications of the other machines, wherein the subgroup of machines consists of the machines in the subset of machines that are (a) physically closest to the user device or (b) the physically closest to a selected location. 7 . The local fleet connectivity system of claim 6 , wherein the GUI comprises a map showing a location of each machine and wherein filtering the list comprises removing machines from the map that do not match the selected attributes or criteria. 8 . The local fleet connectivity system of claim 6 , wherein the instructions further cause the one or more processors to receive, via the GUI, an indication of a selection of the selected location, wherein the subgroup of machines consists of the machines in the subset of machines that are physically closest to the selected location. 9 . The local fleet connectivity system of claim 6 , wherein the instructions further cause the one or more processors to: update the GUI to identify the visual or audible indication associated with each machine in the subgroup of machines; receive, via the GUI, an indication of a selection of a machine from the subgroup; and send a message, in response to receiving the indication of a selection of a machine, an instruction to the selected machine to generate a second visual or audible indication. 10 . The local fleet connectivity system of claim 6 , wherein the instructions further cause the one or more processors to receive, via the GUI, an indication of a selection of a location, wherein the subgroup of machines consists of the machines in the subset of machines that can be moved to the location while moving a minimum number of the machines in the plurality of machines. 11 . A method of identifying multiple machines at a site, the method comprising: generating a graphical user interface (GUI) comprising a list of a plurality of machines; sending the GUI to a screen of a user device for display; receiving, via the GUI, an indication of a selection one or more attributes or criteria; filtering, in response to receiving the indication, the list to create a subset of machines, from the plurality of machines, that match the selected attributes or criteria; sending messages instructing each of a subgroup of machines in the subset of machines to generate a different visual indication; and updating the GUI to identify the visual indication associated with each machine in the subgroup of machines. 12 . The method of claim 11 , further comprising: receiving, via the GUI, an indication of a required number of machines; and identifying the subgroup of machines from the subset of machines, wherein the number of machines in the subgroup of machines equals the required number of machines. 13 . The method of claim 12 , wherein the subgroup of machines consists of the machines in the subset of machines that are physically closest to a selected location. 14 . The method of claim 12 , further comprising: receiving, via the GUI, an indication of a selection of a machine from the subgroup; and sending a message, in response to receiving the indication of a selection of a machine, an instruction to the selected machine to generate a second visual indication or an audible indication. 15 . The method of claim 12 , wherein the subgroup of machines consists of the machines in the subset of machines that can be moved to a selected location while moving a minimum number of machines from the plurality of machines.