Low-Power Platform with Modular Sensors

We claim: 1 . A low-power platform for sensing an environment comprising: a plurality of similar interfaces for attaching environmental sensors, each of the interfaces including a mechanical interlock for attaching a respective one of the environmental sensors and an electrical interlock for detecting whether the mechanical interlock engages the respective environmental sensor, each of the interfaces for transferring peripheral power and environmental data between the platform and the respective environmental sensor when the mechanical interlock engages the respective environmental sensor; a multiplexer for combining the environmental data received from the environmental sensors that are attached to the interfaces into a single stream; a dual port memory for temporarily storing the stream received from the multiplexer; a processor for intermittently retrieving the stream stored in the dual port memory; a radio for forwarding of the stream from the processor toward a central system; and a battery for supplying the peripheral power to the environmental sensors that are attached to the interfaces, and for supplying internal power for the interfaces, the multiplexer, the dual port memory, the processor, and the radio. 2 . The platform of claim 1 , further comprising a passive infrared (PIR) sensor that is the respective environmental sensor attached at one of the interfaces. 3 . The platform of claim 1 , further comprising a detector of wireless communications that is the respective environmental sensor attached at one of the interfaces, the detector configured to detect one or more wireless networks, including detecting a respective name of each wireless network, and further including detecting a network address and a received signal strength for each of one or more devices active on each wireless network, wherein the environmental data for the detector includes, for each of the one or more wireless networks, the respective name of the wireless network and the network address and the received signal strength of each of the one or more devices active on the wireless network, and wherein the environmental data for the detector is transferred from the detector to the platform for the forwarding toward the central system. 4 . The platform of claim 3 , wherein, for each the one or more wireless networks, the processor is adapted to support enhanced RF or wireless cyber situational awareness, remote network vulnerability penetration testing, or deployment of open source cyber effects. 5 . The platform of claim 1 , further comprising the environmental sensors attached to the interfaces, wherein each of the environmental sensors is one of: a passive infrared (PIR) sensor for detecting a physical presence; an active microwave sensor for detecting a physical presence; an acoustic receiver; a magnetometer; a hyperspectral imager; a detector of wireless ethernet communications; a detector of cellular communications; a radio receiver; a receiver for a global positioning system (GPS); and an accelerometer for detecting movement of the platform. 6 . The platform of claim 1 , wherein the interfaces are arranged on a convex surface of the platform, such that when the environmental sensors are attached at the interfaces, the environmental sensors are oriented to sense in a plurality of different directions. 7 . The platform of claim 1 , wherein each interface of the interfaces is asleep except: during ascertaining an identity of the respective environmental sensor for the interface in response to the electrical interlock detecting the mechanical interlock has engaged the respective environmental sensor; during continuous monitoring when the identity ascertained for the respective environmental sensor for the interface is a passive infrared (PIR) sensor because the PIR sensor continuously monitors for a physical presence; during a monitoring interval for the respective environmental sensor for the interface having the identity ascertained to be other than the PIR sensor while the PIR sensor at another of the interfaces detects the physical presence; during continuing monitoring for the respective environmental sensor for the interface having the identity ascertained to be other than the PIR sensor while the respective environmental sensor also detects and continues to detect the physical presence; and during periodic brief awakenings to poll for the environmental data from the respective environmental sensor having the identity ascertained to be other than the PIR sensor. 8 . The platform of claim 7 , wherein the electrical interlock for each interface of the interfaces supplies the peripheral power from the battery to the interface only while the mechanical interlock of the interface is engaging the respective environmental sensor and the interface is not asleep. 9 . The platform of claim 8 , wherein the electrical interlock for each interface of the interfaces includes a transistor switch for controlling whether the battery supplies the peripheral power for the interface, wherein: the transistor switch connects the battery to the interface for supplying the peripheral power while the electrical interlock detects that the mechanical interlock for the interface is engaging the respective environmental sensor and the interface is not asleep, and otherwise the transistor switch disconnects the battery from the interface. 10 . The platform of claim 1 , wherein the mechanical interlock for each of the interfaces includes: an asymmetrical dovetail for receiving a complementary asymmetrical dovetail of the environmental sensors, and a latch providing tactile and audible feedback when the mechanical interlock engages the respective environmental sensor. 11 . The platform of claim 1 , wherein the electrical interlock for each interface of the interfaces includes: two supply signals including a positive signal and a negative signal for supplying the peripheral power from two terminals of the battery, the two terminals outputting a first voltage and a second voltage that are a supply voltage and a ground voltage; a sense signal for being biased to one of the first voltage, the second voltage, and a third voltage between the first and second voltages, wherein the sense signal biased at the first voltage indicates the mechanical interlock is not engaging the respective environmental sensor, and the sense signal biased at the second and third voltages indicates that the mechanical interlock is engaging the respective environmental sensor; and a first resistor for biasing the sense signal toward the first voltage at the interface, wherein while the mechanical interlock engages the respective environmental sensor, the first resistor and a second resistor of the respective environmental sensor form a voltage divider between the first and second voltages that biases the sense signal to the third voltage. 12 . The platform of claim 11 , wherein the electrical interlock further includes: an analog-to-digital converter for converting a voltage of the sense signal into a range of digital values that distinguish the first, second, and third voltages. 13 . The platform of claim 11 , wherein: the positive signal is for supplying the first voltage that is the supply voltage, and the negative signal supplies the second voltage that is the ground voltage; and the sense signal biased at the second voltage indicates both that the mechanical interlock is engaging the respective environmental sensor and that the environmental data from the respective environmental sensor is ready for transfer. 14 . The platform of claim 13