Abstract: A network node associated with a retail store.

Abstract: A self-checkout system can include a plurality of telescoped bagging arm segments moveably coupled together in an order according to respective diameters of the plurality of telescoped bagging arm segments. A scanning system can be configured to provide a characteristic of an item purchased by a user of the self-checkout system and a processor circuit can be operatively coupled to the plurality of telescoped bagging arm segments and to the scanning system, where the processor circuit can be configured to move the plurality of telescoped bagging arm segments relative to one another based on the characteristic of the item to be placed in a bag in use with the self-checkout system.

Abstract: A self-checkout system can include a plurality of telescoped bagging arm segments moveably coupled together in an order according to respective diameters of the plurality of telescoped bagging arm segments. A scanning system can be configured to provide a characteristic of an item purchased by a user of the self-checkout system and a processor circuit can be operatively coupled to the plurality of telescoped bagging arm segments and to the scanning system, where the processor circuit can be configured to move the plurality of telescoped bagging arm segments relative to one another based on the characteristic of the item to be placed in a bag in use with the self-checkout system.

Abstract: A self-checkout (SCO) station for a retail store has a reconfigurable bagging section that receives items scanned by a user. The SCO station determines whether the user does or does not require the SCO station to operate in a mode that complies with the requirements of the Americans with Disabilities Act (ADA). If so, the SCO station automatically reconfigures the bagging section to ensure that the user is able to reach all items in the bagging section.

Abstract: A network node associated with a retail store.

Abstract: A control server associated with a retail store places or assigns people that are determined to be socially interrelated into corresponding groups. When a group member becomes separated from the group, an image of that person is analyzed and used to identify his/her group. Once identified, the control server generates a notification indicating the current locations in the retail store of both the group and the person who became separated, and indicates a route the person can take through the store to reunite with the group.

Abstract: A self-checkout (SCO) station for a retail store has a reconfigurable bagging section that receives items scanned by a user. The SCO station determines whether the user does or does not require the SCO station to operate in a mode that complies with the requirements of the Americans with Disabilities Act (ADA). If so, the SCO station automatically reconfigures the bagging section to ensure that the user is able to reach all items in the bagging section.

Abstract: A self-checkout system can include a plurality of telescoped bagging arm segments moveably coupled together in an order according to respective diameters of the plurality of telescoped bagging arm segments. A scanning system can be configured to provide a characteristic of an item purchased by a user of the self-checkout system and a processor circuit can be operatively coupled to the plurality of telescoped bagging arm segments and to the scanning system, where the processor circuit can be configured to move the plurality of telescoped bagging arm segments relative to one another based on the characteristic of the item to be placed in a bag in use with the self-checkout system.

Abstract: Printers and printer systems for printing images on paper in different configurations and for dispensing printed paper in different directions are disclosed herein. According to an aspect, a printer includes a body defining openings. A printing unit is positioned within the body and can receive an instruction for printing an image. In a first print mode, the printing unit can print the image on the paper in a first configuration and dispense the paper in a first direction through one of the openings of the body. In the second print mode, the printing unit can print the image on the paper in a second configuration and dispense the paper in a second direction through another of the openings of the body. A sensing component can determine whether the printer is in the first print mode or the second print mode.

Abstract: Printers and printer systems for printing images on paper in different configurations and for dispensing printed paper in different directions are disclosed herein. According to an aspect, a printer includes a body defining openings. A printing unit is positioned within the body and can receive an instruction for printing an image. In a first print mode, the printing unit can print the image on the paper in a first configuration and dispense the paper in a first direction through one of the openings of the body. In the second print mode, the printing unit can print the image on the paper in a second configuration and dispense the paper in a second direction through another of the openings of the body. A sensing component can determine whether the printer is in the first print mode or the second print mode.

Abstract: A computer implemented method, system, and computer usable program code are provided for determining the location of a device. A light beam is emitted from a source to a target at a first time. A reflection of the light beam is received from the target at a second time. A distance from the source to the target is determined using the difference between the second time and the first time. An angular position of the target is identified using a position of the source when the reflected light beam was received. Polar coordinates of the target are determined using the distance from the source to the target and the angular position of the target. The light beam is encoded and then emitted from the source to the target. The target does not require power.