A network includes a supervisory sensor in communication with a wireless network and a non-supervisory sensor in communication with the supervisory sensor, wherein the non-supervisory sensor communicates with the wireless network through the supervisory sensor. The supervisory sensor may be configured to receive downloads from a server communicating through the wireless network and to collect data from the non-supervisory sensor. The supervisory sensor may be configured to transmit the collected data to a server on the wireless network. Moreover, the non-supervisory sensor and the supervisory sensor each have an active state and an inactive state and wherein the supervisory sensor may be in the active state while the non-supervisory sensor is in the inactive state.

A system including at least a first node or subnet device configured to be commanded by a controller, a first controller configured to control operation of the first node and interface with a host outside of the system, and a second controller identical to the first controller configured to be a child to the first controller during normal operation and be a parent to a second node or subnet device.

A monitoring and signaling system is provided that may include at least one safety device for a vehicle which can be coupled to a seat for infants or to an item for the boot for pets or to a pet collar, configured to generate an output signal indicative of the presence of an infant or a pet on the seat or in the boot or of the fact that the pet wears the collar. The system may further include a first signaling device configured to emit first signals in sequence when the output signal indicates the presence of the infant or of the pet in the vehicle; and a second signaling device configured to emit second signals in sequence when coupled to the vehicle. The system may further include a mobile device configured to: receive pairs of signals each formed by a first and a second signal, make determinations based thereon, and generate, based on the detection, different monitoring signals.

A system and method for multi-user security monitoring and remote notarization provides image capturing devices allow legal guardians to remotely observe and communicate with dependents in real time. The image capturing device comprises a motion and voice activated lens that articulates to follow and capture the image and sound of the dependent. The image capturing device is configured with a two-way communication network that allows for communications between the legal guardians and the dependent. An algorithm is programmable to control articulation of the motion and voice activated lens of the image capturing device. A password manager generates a unique password for the legal guardians to enable access to the image capturing device. A predetermined noise capturing device and an airborne residue capturing device relay emergency messages upon detection of predetermined noise and residue. Remote notarization units allow for generation, verification, and recorded collection of signatory data between signatory and notary.

A monitoring and signaling system is provided that may include at least one safety device for a vehicle which can be coupled to a seat for infants or to an item for the boot for pets or to a pet collar, configured to generate an output signal indicative of the presence of an infant or a pet on the seat or in the boot or of the fact that the pet wears the collar; a first signaling device, coupled to the safety device for a vehicle and configured to emit first signals in sequence when the output signal indicates the presence of the infant or of the pet in the vehicle; and a second signaling device, couplable to a vehicle and configured to emit second signals in sequence when coupled to the vehicle. The system may further include a mobile device configured to: receive pairs of signals each formed by a first and a second signal; determine, for each pair, a first and a second distance; compare the values of the first and the second distance with a first and a second reference distance, respectively; detect, for each received pair of signals, whether the system alternately operates in a proximity condition, a distance condition, a first intermediate condition or a second intermediate condition; generate, in the event of the detection means detecting the distance condition, different monitoring signals, depending on the fact that the distance condition has been detected after the detection of the first or the second intermediate condition.

A system including at least a first node or subnet device configured to be commanded by a controller, a first controller configured to control operation of the first node and interface with a host outside of the system, and a second controller identical to the first controller configured to be a child to the first controller during normal operation and be a parent to a second node or subnet device.

In embodiments, one or more non-transitory computer-readable storage media comprise a set of instructions, which, when executed on a processor of a server, causes the server to receive sensor data from at least one sensor proximate to an entity, the entity is a human under care of at least one temporary guardian (TG) pursuant to a set of guardianship rules, the guardianship rules including a pre-defined geographic boundary in which the entity is to remain while under the care of the at least one TG. When executed, the instructions further cause the server to extract location metadata of the entity from the sensor data, and based at least in part on the metadata, send notifications to the TG and to a primary guardian (PG) of the entity when the entity is outside of the pre-defined boundary.

Disclosed are various embodiments for a framework for time-associated data stream storage, processing, and replication. A plurality of streams of time-associated data are received from a plurality of sources via a network using an application-layer protocol. Each of the plurality of streams is divided into a plurality of fragments. An acknowledgement is sent to each of the plurality of sources for each of the plurality of fragments via the network using the application-layer protocol. Processing is performed on each of the plurality of fragments for individual ones of the plurality of streams. An action is implemented relative to a respective fragment based at least in part on a result of the processing.

A non-lethal electronic defense device comprising one or more effects such as light, sonic, ultrasonic, infrasonic, chemical, electrical, or mechanical devices capable of causing intense sensations of disorientation, distress, incapacitation, and/or pain for the purpose of protecting a public or private space from an intruder or attacker exhibiting an intent to cause harm to physical inhabitants or destruction of property therein.

In embodiments, one or more non-transitory computer-readable storage media comprise a set of instructions, which, when executed on a processor of a server, causes the server to receive sensor data from at least one sensor proximate to an entity, the entity is a human under care of at least one temporary guardian (TG) pursuant to a set of guardianship rules, the guardianship rules including a pre-defined geographic boundary in which the entity is to remain while under the care of the at least one TG. When executed, the instructions further cause the server to extract location metadata of the entity from the sensor data, and based at least in part on the metadata, send notifications to the TG and to a primary guardian (PG) of the entity when the entity is outside of the pre-defined boundary.