A system and a method for handling events of a fleet of personal mobility devices (PMDs), the system including: a server configured to receive live data from the fleet of PMDs, store the live data in a first memory, and accumulated it as part of historical data. The server may include a processing logic including a classifier configured to provide prediction data based on at least one of: the historical data, the live data. The system may include an event processor configured to process an alarm of the live alarm data of the live data or the prediction alarm data of the prediction data, and generate an alert. Each PMD may include an IoT device and a power controller, and wherein the live data may include first data originating from the power controller and second data originating from the IoT device of a PMD of the fleet.

The present disclosure provides embodiments for improved monitoring of building environments and scoring of various aspects associated therewith. An example apparatus includes at least one processor and at least one memory that are configured in execution to receive, via a plurality of environment monitoring sensors positioned in at least one monitored building environment, building monitoring data. The example apparatus is further configured to determine, for the at least one monitored building environment and based on the building monitoring data, a building operations score set corresponding to a building operations metric set. The example apparatus is further configured to determine, for the at least one monitored building environment, an overall building operational score based on the building operations score set.

The present disclosure provides embodiments for improved monitoring of building environments and scoring of various aspects associated therewith. An example apparatus includes at least one processor and at least one memory that are configured in execution to receive, via a plurality of environment monitoring sensors positioned in at least one monitored building environment, building monitoring data. The example apparatus is further configured to determine, for the at least one monitored building environment and based on the building monitoring data, a building operations score set corresponding to a building operations metric set. The example apparatus is further configured to determine, for the at least one monitored building environment, an overall building operational score based on the building operations score set.

Disclosed in the present invention are a multipurpose smart switchboard device and system, and an operation method thereof, the multipurpose smart switchboard device and system including: a lead-in wire for supplying power to a customer; a main breaker connected to the lead-in wire; a first relay device connected between the main breaker and a first load using a regular power source; a second relay device connected to the first relay device; a third relay device connected to the second relay device; a fourth relay device connected between the third relay device and a second load including a general power consumption device; and a fifth relay device connected between the third relay device and a third load including a temperature regulation device.

Disclosed in the present invention are a multipurpose smart switchboard device and system, and an operation method thereof, the multipurpose smart switchboard device and system including: a lead-in wire for supplying power to a customer; a main breaker connected to the lead-in wire; a first relay device connected between the main breaker and a first load using a regular power source; a second relay device connected to the first relay device; a third relay device connected to the second relay device; a fourth relay device connected between the third relay device and a second load including a general power consumption device; and a fifth relay device connected between the third relay device and a third load including a temperature regulation device.

A running control method includes determining a remaining running space of a first household appliance, receiving a remaining running space sent by a second household appliance connected with the first household appliance in an Internet of Things, and determining one of the second household appliance and the first household appliance having the remaining running space meeting a preset remaining running space condition as a control-side household appliance.

Apparatus and methods prepare an adhesive tape platform with a battery for disposal at an end of its useful life. The adhesive tape platform determines when it is at the end of its useful life and performs an action to drain remaining battery life of the battery. When remaining life in the battery is less than a threshold level, the adhesive tape platform transmits a ready for disposal notification to an Internet of Things (IOT) system of the adhesive tape platform. The adhesive tape platform may determine its life expectancy and operational phases of the adhesive tape platform and assign battery usage for each of the operational phases such that the battery is depleted at an end of a last one of the operational phases. The adhesive tape platform may activate battery draining circuitry to drain the remaining battery life of the battery.

The present disclosure discloses a method for measuring energy of natural gas based on Internet of Things (IOT). The method may be performed by a management platform, comprising: in response to a query request received by a user platform, obtaining a natural gas detection parameter detected by a sense control platform via a sense network platform; determining natural gas metering data by processing the natural gas detection parameter; and transmitting the natural gas metering data to the user platform via a service platform.

The present disclosure discloses a method for measuring energy of natural gas based on Internet of Things (IOT). The method may be performed by a management platform, comprising: in response to a query request received by a user platform, obtaining a natural gas detection parameter detected by a sense control platform via a sense network platform; determining natural gas metering data by processing the natural gas detection parameter; and transmitting the natural gas metering data to the user platform via a service platform.

A processor may identify that a computing device is below a power threshold. The processor may generate a charge request. The charge request may include metrics associated with a requested power exchange. The processor may send the charge request to a decentralized exchange. The decentralized exchange may include the computing device and at least two other devices. The processor may receive respective charging proposals from the at least two other devices. The processor may select one of the respective charging proposals.