Systems and methods for control systems for facilitating situational awareness of a vehicle are provided. Sensors located around a stationary vehicle may detect moving objects that pose potentially dangerous situations for the vehicle occupants and for the object. This can cause the doors to lock automatically in order to make the situation safer. Additionally, electromagnetic radiation sensors located around the vehicle may detect the lights and sounds of emergency vehicles. If the electromagnetic data from the electromagnetic radiation sensors match a known pattern of electromagnetic data emitted by emergency vehicles stored in a library an alarm may be sounded through the speakers of the vehicle in order to alert the vehicle occupants of an emergency vehicle in the vicinity.

An automatic alarm system for a vehicle includes a sensor adapted to detect electromagnetic data, a computer system, and an automatic alarm mechanism. The computer system receives data from the sensor. A computer processor analyzes the data from the sensor to determine whether a pattern from the electromagnetic data has been detected and compares the pattern of electromagnetic data detected by the sensor with known patterns of electromagnetic data emitted by emergency vehicles that are stored in a library. The automatic alarm mechanism activates in response to the processor determining that the comparison matches a known pattern of electromagnetic data for an emergency vehicle resulting in the computer processor sending a first signal to activate an alarm of the vehicle.

Systems and methods for providing awareness of emergency vehicles are provided. Sensors located around a vehicle may detect moving objects that pose potentially dangerous situations for the vehicle occupants and for the object. This can cause the doors to lock automatically in order to make the situation safer. Additionally, electromagnetic radiation sensors located around the vehicle may detect the lights and sounds of emergency vehicles. If the electromagnetic data from the electromagnetic radiation sensors match a known pattern of electromagnetic data emitted by emergency vehicles stored in a library an alarm may be sounded through the speakers of the vehicle in order to alert the vehicle occupants of an emergency vehicle in the vicinity.

Provided is an elevator system capable of protecting the privacy of users. The elevator system includes: a plurality of in-car communication devices provided in a plurality of respective cars; and a group management device configured to, when an in-car communication device in a car that has arrived at a hall receives identification information from a portable terminal by wireless communication and when the car is not a car to which a call has been allocated on the basis of input from the portable terminal corresponding to the identification information, cause the in-car communication device in the car to transmit information indicating that a user has gotten on a wrong car to the portable terminal by wireless communication.

An illustrative example method of controlling an elevator system includes receiving a first request for elevator service from a requestor, receiving a second request for elevator service from the requestor while the first request is still pending, and controlling the elevator system to provide elevator service for only one of the first request or the second request.

A building system includes an elevator system installed in a building. First and second waiting zones for users of the elevator system are specified, wherein the second waiting zone is located in an access region to an elevator of the elevator system. The building system further includes a call input apparatus that receives an elevator call from a user located in the first waiting zone or in a fixed environment of the first waiting zone, and a control apparatus that is communicatively connected to the call input apparatus. In response to a call input from the first waiting zone, the control apparatus can either request the user to wait there until they are called to go into the second waiting zone or can request them to immediately enter the second waiting zone. An allocated elevator can be communicated to the user in the first or second waiting zone.

A method of calling an elevator car from a mobile device is provided. The method comprising: receiving a first elevator call from a first mobile device on a first floor, the first elevator call including a destination request to travel to a second floor; moving an elevator car to the first floor in response to the first elevator call; detecting whether the first mobile device is within the elevator car at the first floor; and adjusting operation of the elevator car in response to each mobile device detected within the elevator car.

Provided are techniques for performing validation of a passenger boarding, where the embodiments include receiving a call request, and detecting beacon information responsive to the call request. The techniques also include validating a boarding status of a passenger that placed the call request based at least in part on the beacon information, and responsive to the validation, transmitting a notification of the boarding status.

An automatic alarm system for a vehicle includes a sensor adapted to detect electromagnetic data, a computer system, and an automatic alarm mechanism. The computer system receives data from the sensor. A computer process analyzes the data from the sensor to determine whether a pattern from the electromagnetic data has been detected, accesses a library of known patterns of electromagnetic data emitted by emergency vehicles, and compares the pattern of electromagnetic data detected by the sensor with the known patterns of electromagnetic data emitted by emergency vehicles that are stored in the library. The automatic alarm mechanism activates in response to the processor determining that the comparison matches a known pattern of electromagnetic data for an emergency vehicle resulting in the computer processor sending a first signal to activate an alarm.

A mobile terminal (7) has an acceleration sensor (8) and a direction sensor (9). The mobile terminal (7) includes a route specifying unit (11), a calculating unit (13), a determining unit (14), and a communicating unit (16). The calculating unit (13) calculates a feature quantity of a route specified by the route specifying unit (11) on the basis of the route specified by the route specifying unit (11). The communicating unit (16) transmits call information to the communicating device (6) when the determining unit (14) determines that the route specified by the route specifying unit (11) is a boarding route.