Provided are a communication method and device, and a storage medium. Provided are a communication method and device, and a storage medium. The method comprises: a control device determining a first resource and a second resource, there being no resource overlap between the first resource and the second resource; and the control device communicating with a first device by means of the first resource and communicating with a second device by means of the second resource, the second device comprising an energy collection module and/or a backscatter module.

A device for detection of a signal of passive RFID chips comprising an antenna for transmitting a source radio signal and receiving a RFID chip radio signal, a peak detector, filters and bit decoders adapted to filter and decode signals with different types of modulation including amplitude, frequency, and phase modulation, and a computing unit. The device further comprises at least a first and a second parallel branch, with a signal processed by the peak detector fed to the input of these branches and the output of these branches connected to the computing unit. The first and the second branch consecutively comprise a filter and a bit decoder, wherein the filter and the bit decoder of the first branch are adapted to process the signal modulated by the first type of modulation, the filter and the bit decoder of the second branch are adapted to process the signal modulated by the second type of modulation. The computing unit comprises at least a first and a second module connected in parallel comprising a protocol for detection of a signal processed by the given protocol, wherein the first module protocol is different from the second module protocol.

In one embodiment, a near field communication (NFC) device is provided, comprising: a communication unit configured to be communicatively coupled to an NFC reader; a processing unit configured to use a plurality of emulated cards for executing one or more applications; a profile determination unit configured to determine a polling profile of said NFC reader, wherein the polling profile represents a sequence of predefined radio frequency (RF) transmission events, and wherein the profile determination unit is configured to determine said polling profile by comparing a detected sequence of RF transmission events with one or more predetermined sequences; a card selection unit configured to select a specific one of said emulated cards for use by the processing unit in dependence on the polling profile determined by the profile determination unit. In another embodiment, a corresponding method of operating an NFC device is conceived. In another embodiment, a computer program is provided for carrying out a method of the kind set forth.

An apparatus that includes at least one nebulizer that includes a mesh material having a plurality of pores, a vibrating actuator coupled to the nebulizer and configured to produce ultrasonic vibration when energized according to a set energy profile, and a reservoir receiver configured to receive a reservoir that holds a topical formulation, the reservoir being coupled to the nebulizer when received. When the nebulizer is placed in contact with the topical formulation, vibration of the mesh nebulizer by the vibrating actuator, according to the set energy profile, ejects droplets of the topical formulation from the plurality of pores, forming a spray.

An assembly and method of manufacture of a radio frequency identification (RFID) assembly having a passive RFID semiconductor chip and a two sided planar antenna and a spacer composed of an electrically non-conducting foam material that is configured for non-absorbing of a substantial amount of energy at the predetermined operating frequency, the spacer having a predetermined thickness and that is configured for non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency wherein the RFID tag assembly is configured to receive at a first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy and is configured to receive at a second side of the planar antenna a second portion of the radio frequency energy as indirect energy responsive to the absorbing by the absorbing material body.

The disclosure includes a doorbell having a visitor detection system that can comprise at least one of a camera, a microphone, and a motion detector. The method for using the doorbell can comprise recording, via the camera, video data that represents a video. The method can also comprise recording, via the microphone, audio data that represents audio. The method of using the doorbell can comprise transmitting at least a portion of the video data and at least a portion of the audio data, to a remote computing device that is communicatively coupled to the doorbell. The method can also comprise transmitting the video data and the audio data to a remote server that is communicatively coupled to the doorbell.

The present disclosure is drawn to, among other things, a method of providing a payment terminal application on an electronic device, the electronic device comprising a volatile storage module, a user input module and a network interface module. In some aspects the method includes receiving user credentials from the user input module, transmitting an authentication request message to a remote data center via the network interface module, the authentication request message including the user credentials, receiving an authentication response message from the remote data center, the authentication response message including an indication as to whether authentication was successful, and if the authentication was successful, receiving at least one encryption key from the remote data center; and storing the at least one encryption key in the volatile storage module.

An RFID receiver (1) comprises an antenna (11) configured to receive a radio signal (20) from an RFID transmitter (2) and to generate an electrical signal (110) from the radio signal (20) received from the RFID transmitter (2). A decoder circuit (10) is connected to the antenna (11) and configured to extract from the electrical signal (110) generated by the antenna (11) data bits encoded in the electrical signal (110). The decoder circuit (10) comprises an analog-to-digital converter (12) connected directly to the antenna (11) and configured to generate a digital input signal (13) from the electrical signal (110) generated by the antenna (11). A bit extractor (14) is connected to the analog-to-digital converter (12) and configured to extract the data bits from the digital input (13) signal generated by the analog-to-digital converter (12).

A receiver of the disclosure includes: a load modulator that transmits an active load modulation signal generated by active load modulation to a reader writer, in response to a carrier signal transmitted from the reader writer; and a controller that determines whether the active load modulation signal has reached the reader writer, and controls the load modulator to retransmit the active load modulation signal, after changing a phase of the active load modulation signal with respect to the carrier signal, in a case where the controller determines that the active load modulation signal has not reached the reader writer.

A network of collection, charging and distribution machines collect, charge and distribute portable electrical energy storage devices (e.g., batteries, supercapacitors or ultracapacitors). To charge, the machines employ electrical current from an external source, such as the electrical grid or an electrical service of an installation location. Users may also use portable charging devices that authenticate portable electrical energy storage devices or are authenticated by portable electrical energy storage devices before the charging is allowed or enabled. This authentication may be via wired or wireless communication channels between the portable charging device and portable electrical energy storage device, such as via near field communication (NFC) channels.