The present invention is a transportable autonomous robotic merchandise dispensing drive thru wherein merchandise is loaded into said facility and dispensed to a customer through an ordering app downloaded on a mobile device or ordered at a facility site. Said drive thru facility is unmanned and completely computer and robotically operated utilizing no humans within said facility. Said facility is operated via computer processor and requires internet but no utility connections such as water, sewage, electric or gas. The current invention has a three part sanitizing system: interiorly, in each serving compartment and at each exterior touchscreen.

The present invention is a transportable autonomous robotic merchandise dispensing drive thru wherein merchandise is loaded into said facility and dispensed to a customer through an ordering app downloaded on a mobile device or ordered at a facility site. Said drive thru facility is unmanned and completely computer and robotically operated utilizing no humans within said facility. Said facility is operated via computer processor and requires internet but no utility connections such as water, sewage, electric or gas. The current invention has a three part sanitizing system: interiorly, in each serving compartment and at each exterior touchscreen.

Provided is a transmitting device for a cart with an auto following function, which can sense the position and moving path of a user and move while following the user. The transmitting device for a cart provides a sensing and communication function such that the cart with the auto following function can sense and follow the position of the transmitting device. Thus, the cart can sense and follow the position of the transmitting device. Furthermore, since the transmitting device for a cart can be conveniently worn like a watch, a user's convenience can be improved.

The self-audited routing of a shipping container includes acquiring a contemporaneous location of a shipping container within location based circuitry of a computing device affixed to the shipping container and retrieving from memory of the computing device affixed to the shipping container, an expected node and a destination node from a sequence of nodes in a path from an origin node of the shipping container, to the destination node. The contemporaneous location is then compared to a location of the expected node and, on the condition that the contemporaneous location is not within a threshold distance of the location of the expected node, a message is transmitted from the computing device over a wireless computer communications network to a remotely disposed client computer indicating a fault in routing of the shipping container to the destination node.

The self-audited routing of a shipping container includes acquiring a contemporaneous location of a shipping container within location based circuitry of a computing device affixed to the shipping container and retrieving from memory of the computing device affixed to the shipping container, an expected node and a destination node from a sequence of nodes in a path from an origin node of the shipping container, to the destination node. The contemporaneous location is then compared to a location of the expected node and, on the condition that the contemporaneous location is not within a threshold distance of the location of the expected node, a message is transmitted from the computing device over a wireless computer communications network to a remotely disposed client computer indicating a fault in routing of the shipping container to the destination node.

A computer implemented and automated method for ordering food on a comprised based system and methods of fulfilling the order are described. The method includes determining the nearest location of a location of a restaurant and placing the order and performing all food order fulfillment steps, such as collecting payments, are described. The method also includes determining an automobile's route map and suggesting various location of the restaurant based on the automobile route maps. The system also determines congestions in traffic, backlogs at the restaurants, and other factors in making the suggesting restaurant locations for pickup. The method provides pick-up times and location details to a user's electronic device. In another embodiment, order is obtained from a cloud server. The user's mobile is paired with the restaurant and the QR code is obtained to process the order once the user arrives at the restaurant.

Dispatch-aiding communications between computing devices of a responder and a dispatch unit include a computing device of the responder determining that an event occurred, automatically sending an indication of the event to a computing device of the dispatch unit, receiving a request for information from the computing device of the dispatch unit, obtaining the information requested by the computing device of the dispatch unit, and sending the information requested by the computing device of the dispatch unit to the computing device of the dispatch unit. The computing device of the dispatch unit sends the request for information to the computing device of the responder in response to receiving the indication of the event.

The invention relates to the monitoring of products by means of active radio tags. According to the invention, packagings of products are provided with an active radio tag that detects at least one environmental condition and/or at least one packaging state, and which emits a signal at time intervals, which provides information about a unique identifier and at least one state in which the respective product is found. The signal is picked up by a receiver that extracts the unique identifier and the state information and transmits same together with location information to an external server.

The invention relates to the monitoring of products by means of active radio tags. According to the invention, packagings of products are provided with an active radio tag that detects at least one environmental condition and/or at least one packaging state, and which emits a signal at time intervals, which provides information about a unique identifier and at least one state in which the respective product is found. The signal is picked up by a receiver that extracts the unique identifier and the state information and transmits same together with location information to an external server.

Systems and techniques are disclosed that provide device-based coordination of multi-party delivery processes. One example implementation involves receiving a payer-invite request from a requester device. The payer-invite request requests an invitation be sent to a payer to pay for a delivery order. The delivery order specifying one or more items to be purchased and delivered to a requester location associated with the requester device or inputted by the requester. The system sends the invitation to a payer device associated with the payer and receives a payment from the payer device. The system fulfills the delivery order by identifying a fulfillment center, a driver, and/or a puller and sending communications with order information and instructions to the devices of those parties to coordinate the delivery. For example, the system sends a driving instruction to a driver device instructing the driver to pick up and deliver the items.