Opportunistic information forwarding using wireless terminals in the internet-of-things

What is claimed is: 1. A method for use by an energy limited node, comprising: detecting, at a wake-up circuit of the energy limited node, a wake-up signal from a wireless terminal, the wake-up signal comprising a modulated waveform signal, the wake-up signal comprising a sequence of frames of a short-range wireless communication protocol, wherein the frames include respective preambles to provide thereby a sequence of preambles; producing, by the wake-up circuit of the energy limited node based on the sequence of preambles, a preamble sequence waveform; and generating, by the wake-up circuit of the energy limited node based on detection of the wake-up signal based on the preamble sequence waveform, a control signal configured to cause a communication module of the energy limited node to switch from a sleep mode in which the communication module is not operable to communicate with the wireless terminal to an active mode in which the communication module is operable to communicate with the wireless terminal. 2. An energy limited node, comprising: a wake-up circuit configured to detect a wake-up signal from a wireless terminal, the wake-up signal comprising a modulated waveform signal, the wake-up signal comprising a sequence of frames of a short-range wireless communication protocol, wherein the frames include respective preambles to provide thereby a sequence of preambles, wherein the wake-up circuit is configured to produce a preamble sequence waveform based on the sequence of preambles; and a communication module configured to switch, based on a control signal generated by the wake-up circuit based on detection of the wake-up signal, from a sleep mode in which the communication module is not operable to communicate with the wireless terminal to an active mode in which the communication module is operable to communicate with the wireless terminal. 3. The energy limited node of claim 2 , wherein the sequence of frames of the short-range wireless communication protocol comprises a sequence of WiFi frames, a sequence of Bluetooth frames, or a sequence of Zigbee frames. 4. The energy limited node of claim 2 , wherein the short-range wireless communication protocol comprises WiFi, Bluetooth, or Zigbee. 5. The energy limited node of claim 2 , wherein the sequence of frames is configured to have a duration during which the sequence of frames is transmitted, a number of frames transmitted in the sequence of frames, and a period between the frames transmitted in the sequence of frames. 6. The energy limited node of claim 2 , wherein the wake-up circuit is configured to: receive the wake-up signal and provide a filtered or selective version of the wake-up signal; integrate at least a portion of the filtered or selective version of the wake-up signal that is below a cutoff frequency to provide thereby energy associated with the wake-up signal; and determine whether the energy associated with the wake-up signal satisfies a threshold. 7. The energy limited node of claim 6 , wherein the wake-up circuit comprises a bandpass filter and timer circuitry configured to receive the wake-up signal and provide the filtered or selective version of the wake-up signal. 8. The energy limited node of claim 6 , wherein the wake-up circuit comprises an integrate-and-dump lowpass filter configured to integrate at least a portion of the filtered or selective version of the wake-up signal that is below the cutoff frequency to provide thereby energy associated with the wake-up signal. 9. The energy limited node of claim 6 , wherein the wake-up circuit comprises a detector configured to determine whether the energy associated with the wake-up signal satisfies a threshold. 10. The energy limited node of claim 9 , wherein the detector is configured to: based on detection that the energy received from the associated with the wake-up signal satisfies the threshold, generate the control signal for triggering the communication module to switch from the sleep mode in which the communication module is not operable to communicate with the wireless terminal to the active mode in which the communication module is operable to communicate with the wireless terminal. 11. The energy limited node of claim 2 , wherein the wake-up circuit comprises: a bandpass filter configured to receive the wake-up signal and to produce a bandpass signal; an integrate-and-dump lowpass filter configured to receive the bandpass filter and integrate at least a portion of the bandpass signal that is below a cutoff frequency of the integrate-and-dump lowpass filter; and an energy detector configured to determine whether energy received from the integrate-and-dump lowpass filter satisfies a threshold. 12. The energy limited node of claim 2 , wherein the wake-up circuit comprises: a detector configured to receive the wake-up signal and determine device identity information from the wake-up signal; and a device identity estimator configured to determine, based on a comparison of the device identity information with reference device identity information specific to the energy limited node, whether the wake-up signal is intended for the energy limited node. 13. The energy limited node of claim 12 , wherein the device identity estimator is configured to: based on a determination that the received device identity information and the reference device identity information match, generate the control signal for triggering the communication module to switch from the sleep mode in which the communication module is not operable to communicate with the wireless terminal to the active mode in which the communication module is operable to communicate with the wireless terminal. 14. The energy limited node of claim 12 , wherein the device identity estimator comprises: a device identity information correlator configured to: receive the device identity information from the detector; and compare the received device identity information and the reference device identity information to determine whether the wake-up signal is intended for the energy limited node. 15. The energy limited node of claim 12 , wherein the device identity estimator comprises: a device identity information correlator configured to correlate a waveform associated with the device identity information and a waveform associated with the reference device identity information specific to the energy limited node; and a threshold detector configured to determine whether correlation of the waveform associated with the device identity information and the waveform associated with the reference device identity information specific to the energy limited node causes a threshold to be satisfied. 16. The energy limited node of claim 12 , wherein the reference device identity information comprises information indicative of one or more characteristics of a reference sequence of frames of the short-range wireless communication protocol that is specific to the energy limited node. 17. The energy limited node of claim 2 , wherein the communication module is configured to transmit information toward the wireless terminal while in the active mode. 18. The energy limited node of claim 2 , wherein the communication module is configured to receive information from the wireless terminal while in the active mode. 19. The energy limited node of claim 2 , wherein the modulated waveform signal is received from the wireless terminal based on control by the wireless terminal of opportunistic forwarding of information between the energy limited node and a wireless ne