According to a first aspect of the present invention, there is provided a chip processing self-service kiosk comprising: a chip slot; a chip sensor; and a mechanical arrangement disposed downstream of the chip slot, the mechanical arrangement configured to allow received chips from the chip slot to be stacked in an orientation where the received chips are countable by the chip sensor.

According to a first aspect of the present invention, there is provided a chip processing self-service kiosk comprising: a chip slot; a chip sensor; and a mechanical arrangement disposed downstream of the chip slot, the mechanical arrangement configured to allow received chips from the chip slot to be stacked in an orientation where the received chips are countable by the chip sensor.

Donation receiving apparatus has a denomination discriminator interfacing a storage area. The denomination discriminator has at least one sensor for sensing at least one physical characteristic of currency passing therethrough. A device controller interfaces a mobile communication device interface and the denomination discriminator. In use, the device controller establishes communication with the mobile communication device, detects a denomination using the at least one physical characteristic and transmits the denomination to the mobile communication device. The mobile communication device may execute an application controller which displays a graphical user interface on a digital display thereof which may display the denomination.

Donation receiving apparatus has a denomination discriminator interfacing a storage area. The denomination discriminator has at least one sensor for sensing at least one physical characteristic of currency passing therethrough. A device controller interfaces a mobile communication device interface and the denomination discriminator. In use, the device controller establishes communication with the mobile communication device, detects a denomination using the at least one physical characteristic and transmits the denomination to the mobile communication device. The mobile communication device may execute an application controller which displays a graphical user interface on a digital display thereof which may display the denomination.

A resilient coin sorting pad for imparting motion to a plurality of coins is provided, the resilient coin sorting pad designed to be coupled to a rotatable disc of a coin sorter, the resilient coin sorting pad being generally circular and having an outer periphery edge. The resilient coin sorting pad comprises a lower foam layer having a top surface, an upper skin layer coupled to the top surface of the foam layer, and a layer of mesh material. According to some embodiments, the upper skin layer comprises at least one layer of nitrile rubber and the layer of mesh material is nylon fiber mesh. According to some embodiments, the upper skin layer comprises at least two layers of nitrile rubber and the layer of mesh material is positioned between the at least two layers of nitrile rubber.

A resilient coin sorting pad for imparting motion to a plurality of coins is provided, the resilient coin sorting pad designed to be coupled to a rotatable disc of a coin sorter, the resilient coin sorting pad being generally circular and having an outer periphery edge. The resilient coin sorting pad comprises a lower foam layer having a top surface, an upper skin layer coupled to the top surface of the foam layer, and a layer of mesh material. According to some embodiments, the upper skin layer comprises at least one layer of nitrile rubber and the layer of mesh material is nylon fiber mesh. According to some embodiments, the upper skin layer comprises at least two layers of nitrile rubber and the layer of mesh material is positioned between the at least two layers of nitrile rubber.

According to some embodiments of the present disclosure, a resilient coin sorting pad for imparting motion to a plurality of coins is provided, the resilient pad designed to be coupled to a rotatable disc of a coin sorter, the resilient pad being generally circular and having an outer periphery edge. The resilient pad comprises a lower foam layer having a top surface, an upper skin layer coupled to the top surface of the foam layer, and a layer of mesh material. According to some embodiments, the upper skin layer comprises at least one layer of nitrile rubber and the layer of mesh material is nylon fiber mesh. According to some embodiments, the upper skin layer comprises at least two layers of nitrile rubber and the layer of mesh material is positioned between the at least two layers of nitrile rubber.

According to some embodiments of the present disclosure, a resilient coin sorting pad for imparting motion to a plurality of coins is provided, the resilient pad designed to be coupled to a rotatable disc of a coin sorter, the resilient pad being generally circular and having an outer periphery edge. The resilient pad comprises a lower foam layer having a top surface, an upper skin layer coupled to the top surface of the foam layer, and a layer of mesh material. According to some embodiments, the upper skin layer comprises at least one layer of nitrile rubber and the layer of mesh material is nylon fiber mesh. According to some embodiments, the upper skin layer comprises at least two layers of nitrile rubber and the layer of mesh material is positioned between the at least two layers of nitrile rubber.

A coin processing apparatus includes a processor to obtain an image of a deposited coin and specify a center of the deposited coin in the image. The processor then performs a first noise removal on a first image region of the image using a first process setting and a second noise removal on a second image region of the image using a second process setting that is different from the first process setting. A processed image of the deposited coin is generated including the first image region after the first noise removal and the second image region after the second noise removal. The processor identifies then the deposited coin using the processed image. The first image region and the second image region are defined based on a predetermined distance from the specified center of the coin.

A coin processing apparatus includes a processor to obtain an image of a deposited coin and specify a center of the deposited coin in the image. The processor then performs a first noise removal on a first image region of the image using a first process setting and a second noise removal on a second image region of the image using a second process setting that is different from the first process setting. A processed image of the deposited coin is generated including the first image region after the first noise removal and the second image region after the second noise removal. The processor identifies then the deposited coin using the processed image. The first image region and the second image region are defined based on a predetermined distance from the specified center of the coin.