An algorithm formulating system for use with a sensing ecosystem for identifying enterprise space states, the sensing ecosystem including a plurality of sensor devices mounted within an enterprise space wherein each sensor device is capable of sensing a plurality of parameters within the enterprise space, the system comprising a processor programmed to perform the steps of accessing a rule set that specifies a first parameter value set that corresponding to a perceived state within a first enterprise space, receiving sensor data from sensor devices within the first enterprise space, comparing the sensor data to the rule set to identify instances of the perceived state, examining sensor data to identify a second parameter value set that occurs at least a threshold percentage of time for the identified instances of the perceived state and using the second parameter value set as the basis for a new rule set to be associated with the perceived state.

A spray pattern monitoring system includes a spray sensor disposed proximate an outlet of a spray nozzle. The spray sensor has one or more optical sensors configured to emit directional light, such as laser pulses, towards the expected position of a liquid spray emitted from the nozzle. The spray sensor can detect the absence or presence of the liquid spray based on returns of the directional light to the optical sensor.

A bait station having an enclosed housing defining an internal volume is disclosed, wherein the internal volume is divided by a partition wall defining a main chamber and an electronics compartment. The electronics compartment has a wireless communication module including a computer processor and transceiver. The main chamber has a single access for a targeted type of pest and a bait access door. A bait platform is located within the main chamber, and a bait monitoring sensor is also located within the main chamber. The bait monitoring sensor is communicatively coupled with the wireless communication module.

A plant monitor includes: a main control chip, a wireless communication chip connected with the main control chip, and at least one growth environment monitoring sensor connected with the main control chip. The at least one growth environment monitoring sensor includes at least one of an illumination sensor, a temperature sensor, a humidity sensor, or a soil conductivity sensor. The main control chip is configured to acquire growth environment data collected by the at least one growth environment monitoring sensor, and send the growth environment data to a mobile terminal via the wireless communication chip. The mobile terminal is configured to generate plant cultivation reference information according to the growth environment data.

Techniques described herein improve viewer experience by leveraging the ability of a viewer's device to access an over-the-top (OTT) content via the device's multi-channel connections to an OTT content server. In an example embodiment, the device receives the OTT content via a first channel and performs cross-party diagnostic testing through a second channel. In this embodiment, a diagnostic app in the device compares measured signals in the first channel with a first set of threshold values and further compares acquired telemetry data in the second channel with a second set of threshold values. Based on the comparison results, the device determines the possible root cause of the interruption. Further, the device performs an in-depth diagnostic testing on a determined possible root cause (e.g., OTT content server) and sends an in-depth diagnostic report to a viewer.

An electronic device including a continuity sensor and electrical circuitry configured to detect and report the continuity state of an article, container or product packaging is disclosed. The continuity sensor includes a first substrate with first and second coils thereon, and a second substrate with a third coil thereon. The first coil has an integrated circuit electrically connected thereto. The first substrate is part of, or is attached or secured to a part of the article, container or packaging. The second substrate is another part of, or is attached or secured to another part of the article, container or packaging. One of the article, container or packaging parts is (re)movable with respect to the other part. The first and second coils have one coupling when the article, container or packaging is closed or sealed, and a different coupling when the article, container or packaging is open or unsealed.

This disclosure describes methods and apparatus for hygiene monitoring in chain restaurants and grocery superstores. Four sub-systems are introduced to take care of different aspects of hygiene in restaurants. One sub-system uses contactless and in-contact temperature sensors installed on appliances to constantly monitor the temperature of working appliances to be in pre-defined range and use an Internet of Things gateways to transmit the data to remote control unit. The system generate an alert or report if the temperature of the appliances falls beyond the predefined range for more than a specific period of time. Another sub-system use a combination of temperature, humidity, UV and gas detectors to monitor the environment to be unsuitable for growth of fungus and bacteria and alert in case of exposure to harmful material and sun radiation. This sub-system also use an Internet of Things gateways to transmit the data to remote control unit. The third sub-system use a combination of radio frequency tags attached to the staff, RF tag readers and infrared/proximity/motion/microphone/touch sensors installed over the faucet and dispenser to monitor if the staff wash their hands properly after going to the restroom. The forth sub-system automatically generate food expiring label for opened cans and food container based on RF tag worn by the staff. The system generate and print the label whenever the staff gesture their RF tags in front of them and potentially scan the container bar code or select it from a drop-down menu on its touch screen. The last sub-system can also monitor the inventory of opened cans of food in the refrigerator and provide a report or alert when they the time gets close to expiration date.

A modular sensor system may perform soil and water analysis at various depths. For instance, chemical composition may be determined and concentration and/or environmental parameters, such as pressure, temperature, and/or moisture, may be measured at different depths. A sensor bus head, at least one sensor rod, and a sensor bus terminus may be vertically stacked and interconnected through a bus network such that the system is modular and reconfigurable.

A data collection unit arranged to collect data indicating hygiene equipment status includes a receiving unit configured to receive inbound data from hygiene equipment; and a transmitting unit configured to transmit outbound data directly to a terminal via device-to-device, D2D, communication; wherein the outbound data is based on the inbound data.

The invention relates to managing the execution of services executed by on-board components in a land motor vehicle (VEH) on the basis of generating a summary message (MU) sent at a predetermined frequency.