A programmable logic controller (PLC) with voice control includes a CPU configured to run an application program, a condition monitoring system (CMS) configured to provide condition data of an industrial unit, a microphone input for providing microphone data, the microphone input connected with the CMS, which is configured to receive the microphone data, determine an audio file using the received microphone data, and provide the audio file to the CPU; wherein the application program is configured to determine a control command for the PLC using the provided audio file.

A blender system includes a bottle, a voice-controlled virtual assistant, and a container for blending ingredients from a container with a fluid. The bottle includes a blending chamber with an opening to receive a fluid and a shoulder about the opening. The voice-controlled virtual assistant is configured to communicate with a user. The lid is configured to couple with the bottle and includes a container receiver. The container receiver is configured to receive the container and position a lip of the container against the shoulder when the lid is coupled to the bottle. The container receiver is further configured to press the container towards the opening while the shoulder holds the lip stationary to discharge the ingredients from the container into the fluid in the blending chamber. The voice-controlled virtual assistant receives commands from the user and operates the blender system based on the commands.

A device implementing a system for responding to a voice request includes a processor configured to receive a voice request for content, the voice request corresponding to a first user account, the device being associated with the first user account, a second user account and a default account. The processor if further configured to determine that the content is unavailable via the first user account, and provide, in response to the determining, the content via at least one of the second user account or the default account.

A building management system includes one or more processors, and one or more computer-readable storage media communicably coupled to the one or more processors and having instructions stored thereon that cause the one or more processors to: define a state of a zone or space within a building; control an HVAC system to adjust a temperature of the zone or space corresponding to a first action; receive utterance data from a voice assist device located in the zone or space; analyze the utterance data to identify a sentiment relating to the temperature of the zone or space; calculate a reward based on the state, the first action, and the sentiment; determine a second action to adjust the temperature of the zone or space based on the reward; and control the HVAC system to adjust the temperature of the zone or space corresponding to the second action.

A building management system includes one or more processors, and one or more computer-readable storage media communicably coupled to the one or more processors and having instructions stored thereon that cause the one or more processors to: receive utterance data from a voice assist device; determine a location of the voice assist device; analyze the utterance data to identify a sentiment relating to a temperature of the location; and control an HVAC system to adjust the temperature of the location based on the sentiment.

This relates to systems and processes for using a virtual assistant to control electronic devices. In one example process, a user can speak an input in natural language form to a user device to control one or more electronic devices. The user device can transmit the user speech to a server to be converted into a textual representation. The server can identify the one or more electronic devices and appropriate commands to be performed by the one or more electronic devices based on the textual representation. The identified one or more devices and commands to be performed can be transmitted back to the user device, which can forward the commands to the appropriate one or more electronic devices for execution. In response to receiving the commands, the one or more electronic devices can perform the commands and transmit their current states to the user device.

An electric tool system, including an electric tool and a charger. The electric tool system includes: a voice obtaining component, obtaining voice information from a user; and a control module, obtaining instruction information generated based on the voice information, and controlling the electric tool system based on the instruction information to perform a corresponding action, where the electric tool system includes: a voice processing component, at least configured to generate information that corresponds to the voice information and satisfies a transmission format of a communications component; and the communications component, sending the information processed by the voice processing component to a server, receiving response information from the server, and providing the response information to the control module, where the instruction information includes the response information. The beneficial effects of the present invention are as follows: A user may directly send a request by using voice information, thereby conveniently obtaining various required information or implementing various controls, so that an electric tool system becomes a personal worksite assistant of the user, thereby extending the functions of the electric tool system.

This relates to systems and processes for using a virtual assistant to control electronic devices. In one example process, a user can speak an input in natural language form to a user device to control one or more electronic devices. The user device can transmit the user speech to a server to be converted into a textual representation. The server can identify the one or more electronic devices and appropriate commands to be performed by the one or more electronic devices based on the textual representation. The identified one or more devices and commands to be performed can be transmitted back to the user device, which can forward the commands to the appropriate one or more electronic devices for execution. In response to receiving the commands, the one or more electronic devices can perform the commands and transmit their current states to the user device.

This relates to systems and processes for using a virtual assistant to control electronic devices. In one example process, a user can speak an input in natural language form to a user device to control one or more electronic devices. The user device can transmit the user speech to a server to be converted into a textual representation. The server can identify the one or more electronic devices and appropriate commands to be performed by the one or more electronic devices based on the textual representation. The identified one or more devices and commands to be performed can be transmitted back to the user device, which can forward the commands to the appropriate one or more electronic devices for execution. In response to receiving the commands, the one or more electronic devices can perform the commands and transmit their current states to the user device.

An electronic device includes an audio reception circuit, a processing circuit and at least one movable component. The audio reception circuit receives an audio data. The processing circuit performs an audio feature analysis on the audio data to obtain audio feature data, and determines a corresponding action event according to audio feature data to generate an action control signal corresponding to the action event. The movable component performs the action event in response to the action control signal.