A robot includes a secure storage area, a camera, a propulsion system, a memory device, and a processor. The processor is configured to receive a request for drop box services within a casino, the request including a pickup location and a requestor, control the propulsion system to navigate the robot to the pickup location within the casino, and authenticate an identity of the requestor in response to arriving at the pickup location. The processor is also configured to provide the requestor access to the secure storage area in response to authenticating the identity of the requestor, detect receipt, from the requestor, of at least one value instrument within the secure storage area, lock the secure storage area, and provide a receipt to the requestor in response to receiving the at least one value instrument within the secure storage area.

A robot controller for controlling a robotic device within a robot cell including multiple robotic devices is presented. The controller is configured to wirelessly receive control data comprising cell state data indicative of a current state of the robot cell. The control data are received via one of a broadcast and a multicast transmission directed to the multiple robotic devices in the robot cell.

A robot includes a camera, a wireless interface, a propulsion system, a memory device, and a processor. The processor is configured to control the propulsion system to navigate the robot proximate a gaming device, initiate, using the wireless interface, a connection with the gaming device, request a data exchange with the gaming device, and receive, via the wireless interface and using a wireless communications protocol, data from the gaming device.

A robot includes a camera, a wireless interface, a propulsion system, a memory device, and a processor. The processor is configured to control the propulsion system to navigate the robot proximate a gaming device, initiate, using the wireless interface, a connection with the gaming device, request a data exchange with the gaming device, and receive, via the wireless interface and using a wireless communications protocol, data from the gaming device.

A robot is described. The robot includes a propulsion system, a wireless interface, a memory device, and a processor configured to execute instructions stored in the memory device. The instructions, when executed by the processor, cause the processor to determine, based upon a communication received at the wireless interface, to perform a celebration associated with a trigger event that has occurred on a casino floor and in response to determining to perform the celebration, control the propulsion system to cause the robot to perform at least a portion of the celebration.

A robot includes a propulsion system configured to move the robot within an operations venue, a wireless interface configured to communicatively connect the robot with a wireless network, a touchscreen display device, a contactless reader device, a memory device, a processor. The processor is configured to receive, from a robot management system (RMS) and via the wireless interface, a relocation request identifying a service location within the operations venue and at which the robot is to provide a service, control the propulsion system to navigate the robot to the service location in response to receiving the relocation request, receive, from a user, an authorization request to add funds to a digital wallet of the user, and transmit, via the wireless interface, an authorization request message to a funds transfer data center associated with the user, the authorization request message configured to request adding the funds to the digital wallet of the user.

A robot management system (RMS) includes a plurality of service robots deployed within an operations venue that includes a plurality of gaming devices, an operator terminal presenting a graphical user interface (GUI) to an operator, and a robot management system server (RMS server) configured in networked communication with the plurality of service robots. The RMS server is configured to: identify location data for the service robots; create an interactive overlay map of the operations venue that includes a static map of the operations venue, overlay data showing the location data of the plurality of service robots over the static map, and an interactive icon for each service robot of the plurality of service robots; display, via the GUI, the overlay map; receive a first input indicating a selection of a first interactive icon associated with a first service robot; and display current status information associated with the first service robot.

A delivery robot includes a propulsion system, a storage area arranged to contain at least one item for delivery, a wireless interface, a memory device, and a processor. The processor is configured to receive, from a robot management system (RMS) and via the wireless interface, a delivery request, wherein the delivery request identifies at least the item contained within the storage area, a delivery location, and a recipient. The processor is also configured to control the propulsion system to navigate the delivery robot to the delivery location in response to receiving the delivery request, receive an authentication credential from the recipient, authenticate the recipient based upon the authentication credential, and in response to authenticating the recipient, control the storage area to provide the at least one item contained within the storage area to the recipient.

A robot is described. The robot includes a camera device, a memory device, and a processor configured to execute instructions stored in the memory device. The instructions, when executed by the processor, cause the processor to receive an input prompting the robot to navigate to a location in a venue for providing photo services with the camera device and cause the robot to navigate to the location. The instructions further cause the processor to capture, by the camera device, at least one photo at the location and provide access to a copy of the at least one photo to an authorized person.

A kiosk robot includes a propulsion system configured to allow the kiosk robot to move within an operations venue, a wireless interface configured to allow wireless networked communication between the kiosk robot and a wireless network, a touchscreen display device, a memory device, and a processor. The robot is configured to receive, from a robot management system (RMS) and via the wireless interface, a relocation request identifying a service location within the operations venue and at which the kiosk robot is to provide kiosk functionality, in response to receiving the relocation request, control the propulsion system to navigate the kiosk robot to the service location, and provide a kiosk graphical user interface (GUI) using the touchscreen display device, the kiosk GUI provides kiosk functionality to a user at the service location.