Abstract: The present invention relates to a proximity detection system and method for a computer or similar device. The computer includes at least two transducer units being capable of transmitting acoustic signals identifying the transducer within a predetermined frequency range. The transducer units are positioned at a distance from each other in said device, and at least one receiving transducer is capable of receiving acoustic signals within said frequency range and recognizing the transducer identification. The system is configured to measure the distance between each transducer unit and a reflecting object based on the transmitted and received signals based on the measured propagation time. The system is further configured to activate each of the transducer units and comparing the measured distance from each transducer unit thus calculating the direction of a reflecting object, and at the detecting of an object within a predetermined range of direction providing an activation signal to the device.

Abstract: The present teachings relate to an electronic device comprising: a first module for generating an audio signal; a second module for generating an ultrasonic signal; a mixer for generating a combined signal; a transmitter for outputting an acoustic signal dependent upon the combined signal; and, a processing means for controlling the ultrasonic signal; wherein, in response to receiving a first instruction signal for initiating the ultrasonic signal, the processing means is configured to increase the amount of the ultrasonic signal in the combined signal from an essentially zero value to a predetermined value over a predetermined enable time-period.

Abstract: The present teachings relate to an electronic device comprising: a first module for generating an audio signal; a second module for generating an ultrasonic signal; a mixer for generating a combined signal; a transmitter for outputting an acoustic signal dependent upon the combined signal; and, a processing means for controlling the ultrasonic signal; wherein, in response to receiving a first instruction signal for initiating the ultrasonic signal, the processing means is configured to increase the amount of the ultrasonic signal in the combined signal from an essentially zero value to a predetermined value over a predetermined enable time-period.

Abstract: Present teachings relate to a method for proximity detection on an electronic device, the method comprising the steps of: performing a first measurement using a first sensor; calculating, using a processing unit, a first distance value from the first measurement; the first distance value being indicative of the distance between a user and the electronic device; in response to the first distance value, through the processing unit, adapting an energy level on the electronic device, said energy level being related to the Specific Absorption Rate (“SAR”), such that predefined SAR requirements due to exposure of emitted energy from the electronic device are met. The present teaching further relate to an electronic device comprising a measurement system configured to control an energy level on the electronic device, said energy level being related to the Specific Absorption Rate (“SAR”). The present teachings also relate to a computer software product for implementing any method steps disclosed herein.

Abstract: The present teachings relate to a proximity detection system for an electronic device comprising a transmitter and a receiver, the transmitter being arranged to transmit a signal, at least some portion of which is directed towards an object, and the receiver being arranged to receive a reflected signal, the reflected signal being a portion of the signal reflected from the object, wherein the system comprises a first processing unit configured to, load and execute an engine for controlling the transmission of the signal, and extracting one or more parameters related to the object from the reflected signal; wherein the system further comprises a second processing unit configured to receive sensor data from other sensors in the electronic device; and transmit the sensor data to the engine, wherein the engine is configured to generate a proximity event by analyzing at least one of the one or more parameters, and at least some of the sensor data.

Abstract: The present teachings relate to an electronic device comprising: a first module for generating an audio signal; a second module for generating an ultrasonic signal; a mixer for generating a combined signal; a transmitter for outputting an acoustic signal dependent upon the combined signal; and, a processing means for controlling the ultrasonic signal; wherein, in response to receiving a first instruction signal for initiating the ultrasonic signal, the processing means is configured to increase the amount of the ultrasonic signal in the combined signal from an essentially zero value to a predetermined value over a predetermined enable time-period.

Abstract: The present teachings relate to an electronic device comprising: a first module for generating an audio signal; a second module for generating an ultrasonic signal; a mixer for generating a combined signal; a transmitter for outputting an acoustic signal dependent upon the combined signal; and, a processing means for controlling the ultrasonic signal; wherein, in response to receiving a first instruction signal for initiating the ultrasonic signal, the processing means is configured to increase the amount of the ultrasonic signal in the combined signal from an essentially zero value to a predetermined value over a predetermined enable time-period.

Abstract: Present teachings relate to a method for controlling an electronic device comprising a touch-sensitive surface and a proximity sensor, comprising the steps of:—Changing the device from a screen-on state to a near state in response to a near event being detected by the proximity sensor and the near event occurs when an input object is determined to be in proximity of the electronic device by the proximity sensor;—While the device is in the near state, processing a first category touch event, and in response to the processing of the first category touch event, performing at least one function on the electronic device;—While the device is in the near state, ignoring a second category touch event, wherein the second category touch event is distinct from the first category touch event.

Abstract: Present teachings relate to a method for proximity detection on an electronic device, the method comprising the steps of: performing a first measurement using a first sensor; calculating, using a processing unit, a first distance value from the first measurement; the first distance value being indicative of the distance between a user and the electronic device; in response to the first distance value, through the processing unit, adapting an energy level on the electronic device, said energy level being related to the Specific Absorption Rate (“SAR”), such that predefined SAR requirements due to exposure of emitted energy from the electronic device are met. The present teaching further relate to an electronic device comprising a measurement system configured to control an energy level on the electronic device, said energy level being related to the Specific Absorption Rate (“SAR”). The present teachings also relate to a computer software product for implementing any method steps disclosed herein.

Abstract: Present teachings relate to a method for determining the proximity of an object to an electronic device, the electronic device comprising an ultrasonic sensor and a second sensor, which ultrasonic sensor comprising at least one ultrasonic transmitter and at least one ultrasonic receiver, which method comprising the steps of: transmitting from the ultrasonic transmitter an ultrasonic signal; receiving at the ultrasonic receiver an ultrasonic response signal; determining an ultrasonic response by processing the ultrasonic response signal using a processor; determining a sensor response by processing a second signal using a processor, said second signal being generated by the second sensor; configuring via the processor a power level of a second ultrasonic signal transmitted from the ultrasonic transmitter in response to the ultrasonic response meeting a first criterion, and the sensor response meeting a second criterion.

Abstract: A method, an arrangement and a computer program product, for providing seamless IP mobility across a security boundary between two domains comprises a novel architecture of known network infrastructure components along with enabling client software on the user device. The specific client software as well as the novel architecture represents the invention. The method is based on the combined use of independent IP mobility systems in each of the two domains. The key is client software being able to operate with both mobility systems simultaneously. Moreover, communication takes place in such a way that the ordinary remote access security solution is in control of all access to the secure home domain of the user. The resulting method provides secure and seamless IP mobility in any domain with independent choice of mobility and security technologies.

Abstract: A method, an arrangement and a computer program product, for providing seamless IP mobility across a security boundary between two domains is described. The invention comprises a novel architecture of known network infrastructure components along with enabling client software on the user device. The specific client software as well as the novel architecture represents the invention. Unlike state-of-art today, the method is based on the combined use of independent IP mobility systems in each of the two domains. The key to the invention is client software being able to operate with both mobility systems simultaneously. Moreover, communication takes place in such a way that the ordinary remote access security solution is in control of all access to the secure home domain of the user. The resulting method provides secure and seamless IP mobility in any domain with independent choice of mobility and security technologies.