Approaches describe a mobile computing device, e.g., an ergonomically configured connected counting device, to capture counts of people, products, or any countable object, store the counts and associated information in a central repository for access by other connected counting devices. The counts and associated qualifying information can then be displayed through mobile devices and web applications, and can display count data with sales, demographic and other qualifying data sources to provide information for qualitative and quantitative reporting, as well as enable count based automated promotions through traditional channels and social networks.

Approaches describe a mobile computing device, e.g., an ergonomically configured connected counting device, to capture counts of people, products, or any countable object, store the counts and associated information in a central repository for access by other connected counting devices. The counts and associated qualifying information can then be displayed through mobile devices and web applications, and can display count data with sales, demographic and other qualifying data sources to provide information for qualitative and quantitative reporting, as well as enable count based automated promotions through traditional channels and social networks.

A lightning strike counter and a lightning strike counting method are disclosed. The lightning strike counter includes a lightning strike input circuit, a bipolar waveform generating circuit, and a counting circuit. The lightning strike input circuit receives a lightning strike signal from a first lightning strike input end and a second lightning strike input end. The bipolar waveform generating circuit outputs a bipolar waveform signal from a bipolar waveform output end to the counting circuit in response to the lightning strike input circuit receiving the lightning strike signal. The counting circuit outputs a counting output signal from a counting output end in response to receiving the bipolar waveform signal from a counting input end.

A hubodometer for attachment to a wheel hub comprising an outer housing enclosing equipment for measuring distance travelled based on the wheel hub's number of revolutions, and a NFC-based communications link for transmitting to an external unit data related to the measured distance and for receiving operational data such as the diameter of the vehicle's wheel, and the position of the hub to which the hubodometer is attached. The equipment comprises a first electronic assembly conjoined with the outer housing and a second assembly comprising an anti-rotation pendulum provided with two permanent magnets of opposing polarities, the positions of which subtend an angle smaller than 180 degrees. The first electronic assembly comprises a bipolar Hall sensor moving in a circular path that traverses North and South fields of the magnets, whose output signal is a rectangular wave in which different mark-to-space ratios are associated with forward or reverse travel direction.

A pleat counter and methods are provided to accurately count the number of pleats in a corrugated sheet of material to be used for the production of air filters. The pleat counter comprises a pleat detector mounted underneath a mounting board for counting the pleats. The mounting board is configured to position the pleat detector adjacent to the corrugated sheet of filter material. The pleat detector includes one or more sensors configured to detect the presence of individual pleats comprising the corrugated sheet. The pleat counter includes an interface configured to enable coupling the pleat counter with a data processing system. The data processing system may comprise any of a desktop, a tablet, a server, a mobile phone, a media player, a personal digital assistant (PDA), a personal communicator, a network router or hub, a wireless access point (AP) or repeater, a set-top box, or a combination thereof.

A pleat counter and methods are provided to accurately count the number of pleats in a corrugated sheet of material to be used for the production of air filters. The pleat counter comprises a pleat detector mounted underneath a mounting board for counting the pleats. The mounting board is configured to position the pleat detector adjacent to the corrugated sheet of filter material. The pleat detector includes one or more sensors configured to detect the presence of individual pleats comprising the corrugated sheet. The pleat counter includes an interface configured to enable coupling the pleat counter with a data processing system. The data processing system may comprise any of a desktop, a tablet, a server, a mobile phone, a media player, a personal digital assistant (PDA), a personal communicator, a network router or hub, a wireless access point (AP) or repeater, a set-top box, or a combination thereof.

A lightning strike counter and a lightning strike counting method are disclosed. The lightning strike counter includes a lightning strike input circuit, a bipolar waveform generating circuit, and a counting circuit. The lightning strike input circuit receives a lightning strike signal from a first lightning strike input end and a second lightning strike input end. The bipolar waveform generating circuit outputs a bipolar waveform signal from a bipolar waveform output end to the counting circuit in response to the lightning strike input circuit receiving the lightning strike signal. The counting circuit outputs a counting output signal from a counting output end in response to receiving the bipolar waveform signal from a counting input end.

A lightning strike counter and a lightning strike counting method are disclosed. The lightning strike counter includes a lightning strike input circuit, a bipolar waveform generating circuit, and a counting circuit. The lightning strike input circuit receives a lightning strike signal from a first lightning strike input end and a second lightning strike input end. The bipolar waveform generating circuit outputs a bipolar waveform signal from a bipolar waveform output end to the counting circuit in response to the lightning strike input circuit receiving the lightning strike signal. The counting circuit outputs a counting output signal from a counting output end in response to receiving the bipolar waveform signal from a counting input end.

Approaches describe a mobile computing device, e.g., an ergonomically configured connected counting device, to capture counts of people, products, or any countable object, store the counts and associated information in a central repository for access by other connected counting devices. The counts and associated qualifying information can then be displayed through mobile devices and web applications, and can display count data with sales, demographic and other qualifying data sources to provide information for qualitative and quantitative reporting, as well as enable count based automated promotions through traditional channels and social networks.

A hubodometer for attachment to a wheel hub comprising an outer housing enclosing equipment for measuring distance travelled based on the wheel hub's number of revolutions, and a NFC-based communications link for transmitting to an external unit data related to the measured distance and for receiving operational data such as the diameter of the vehicle's wheel, and the position of the hub to which the hubodometer is attached. The equipment comprises a first electronic assembly conjoined with the outer housing and a second assembly comprising an anti-rotation pendulum provided with two permanent magnets of opposing polarities, the positions of which subtend an angle smaller than 180 degrees. The first electronic assembly comprises a bipolar Hall sensor moving in a circular path that traverses North and South fields of the magnets, whose output signal is a rectangular wave in which different mark-to-space ratios are associated with forward or reverse travel direction.