The present technology relates to a cooking system, a method for controlling a cooking system, and a program that enable a user to enjoy the pleasure and happiness of cooking by safely providing novel cooking experiences. A state of a cooking space is detected, a dangerous area for a user in the cooking space is detected on the basis of a cooking process and the state of the cooking space, and the detected dangerous area is indicated in the cooking space. The present technology can be applied to a system kitchen having a robotic function.

Systems and methods for enhanced collection of training data for machine learning to improve worksite safety and operations. One embodiment is a system with an interface to instruct a user device of a user to capture first sensor data of an object performing one or more known actions. The system also includes a training controller to allocate points as an award to the user of the user device for correctly capturing the object performing the one or more known actions, and to generate an instruction for the user to capture second sensor data of the object performing one or more unknown actions if the user has exceeded a threshold of awarded points. The training controller trains a machine learning function based on the second sensor data of the object performing the one or more unknown actions as identified by the user having exceeded the threshold of awarded points.

Safety system (100) for an industrial environment (10) comprising a robotic machine wherein at least a moving head (12) of the robotic machine is movable within a first area (1) and a second area (2) of the industrial environment (10), the safety system (100) comprising: a light curtain (110) extending between a first vertical support (112) and a second vertical support (114) to cover both the first area (1) and the second area (2); a head position sensor (130) adapted to detect the position of the moving head (12) within the first area (1) and the second area (2); a safety control unit (140);
wherein the light curtain (110) comprises a first couple of two TOF sensors (F1, F3) respectively positioned on the first and second vertical supports (112, 114), the safety control unit (140) being adapted to process output signals received from the TOF sensors (F1, F3) and the head position sensor (130) so as to selectively and dynamically secure the first area (1) and the second area (2).

A web material converting line is disclosed, in particular for converting tissue paper, including a plurality of converting sections arranged in sequence along a feeding direction of a web material to be converted, each section including a converting machine; at least one converting section of the converting line includes a detection system for detecting the presence of people near the converting section. The detection system includes at least a first presence sensor and is adapted to detect the presence of people in at least a controlled area. The controlled area is subdivided into an accessible area 5 that can be accessed when the line is working, and an alarm area. The detection system is adapted to distinguish between the presence of an individual in the accessible area and the presence of an individual in the alarm area. The detection system is connected to a control unit adapted to intervene on the operation of the converting section based on information provided by the detection system.

A web material converting line is disclosed, in particular for converting tissue paper, including a plurality of converting sections arranged in sequence along a feeding direction of a web material to be converted, each section including a converting machine; at least one converting section of the converting line includes a detection system for detecting the presence of people near the converting section. The detection system includes at least a first presence sensor and is adapted to detect the presence of people in at least a controlled area. The controlled area is subdivided into an accessible area 5 that can be accessed when the line is working, and an alarm area. The detection system is adapted to distinguish between the presence of an individual in the accessible area and the presence of an individual in the alarm area. The detection system is connected to a control unit adapted to intervene on the operation of the converting section based on information provided by the detection system.

Provide a safer cutting machine. A front portion detection means that is spaced downward from the lower end of the clamp gauge by a first predetermined distance and is positioned near the front edge of the clamp gauge in die front-rear direction of the clamp gauge, and a first predetermined distance from the lower end of the clamp gauge. The rear portion detection means and the clamp gauge which arc spaced apart from each other by a second predetermined distance different from the above distance and which are arranged at the rear portion of the front portion detection means in the front-rear direction of the clamp gauge move in the vertical direction. The height of the clamp gauge when the detection state/non-detection state of the rear portion detection means is switched by the paper stack when it is moving or not moving, and the front portion by an unknown object when the clamp gauge is moving vertically The height of the clamp gauge when the detection state/non-detection state of Ok detection means is switched, the difference between the first predetermined distance and the second predetermined distance, and the class of the intruding object. Based on the estimated dimension in the vertical direction of Pugeji to detect an intrusion object.

A system includes at least one article of personal protective equipment, one or more industrial devices, an industrial controller device configured to output industrial controller data indicative of one or more attributes of the one or more industrial devices, and a computing device. The computing devices is configured to determine a set of one or more safety rules corresponding to a work environment at the first time and determine a change in an attribute of the one or more attributes of the one or more industrial devices. The computing device is further configured to identify an updated set of one or more worker safety rules corresponding to the work environment at the second time and determine whether the status of at least one article of personal protective equipment satisfies the updated set of one or more worker safety rules. The computing devices is further configured to perform at least one action based on determining whether the at least one article of personal protective equipment satisfies the updated set of one or more worker safety rules.

An optoelectronic safety sensor (10) for safeguarding a machine (34), the sensor (10) comprising a light receiver (24) for optical detection of object data and a control and evaluation unit (26) configured to use the object data to decide whether a safety-critical object (36) is detected in a vicinity of the machine (34) and in this case to trigger a safety-related reaction, and wherein the control and evaluation unit (26) is further configured to adapt the sensitivity of a criterion for deciding whether a safety-critical object (36) is detected as a function of at least one of previously detected objects and simultaneously detected objects.

Provided herein are LED warning lights and related methods for detecting oncoming traffic around corners, including in a warehouse. The warning lights have: a LED light module and an external motion sensor operably connected to the LED light module. The device is self-contained with respect to power, communication and alerts in that no other components are required, so that the warning lights are portable and readily positioned as desired and are immediately operable.

A vehicle comprising a viewing system including at least one camera, a monitor and a support, the support comprising a movable support part supporting the monitor and movably mounted on a fixed support part secured to a frame of the vehicle, a biasing system comprising a locking device mounted on the fixed support part and configured to impart a load to the movable support part so as to maintain the movable support part in a position with respect to the fixed support part, and a pneumatic releasing device configured to inject compressed air in the locking device to release the movable support part from the load.