Abstract: We generally describe a collision prevention system (100) comprising: a localization system (402) for determining positions of an autonomous vehicle (104) and a human (106); and a collision determination unit (404) coupled to or in communication with the localization system (402), wherein the collision determination unit (404) is configured to determine, based on the determined positions of the autonomous vehicle (104) and the human (106), whether a predefined condition for an anticipated collision of the autonomous vehicle (104) with the human (106) is met; wherein the collision prevention system (100) is configured to: lock the autonomous vehicle (104) if the predefined condition is met; alert the human (106) for whom the predefined condition for colliding with the autonomous vehicle (104) is met; and allow unlocking of the autonomous vehicle (104) to be performed or initialized by the alerted human (106) only.

Abstract: We generally describe a detection system and a method for tracking a moving object. The detection system (101) comprises a sensor (102) which is configured to sense an event. The system further comprises a trigger detection module (108a) which is coupled to the sensor (102), wherein the trigger detection module (108a) is configured to identify the sensed event to be a trigger event. The system further comprises an imaging device (114) for imaging the trajectory of an object, and an imaging device control unit (112) for controlling the imaging device (114). The imaging device control unit (112) is coupled to the trigger detection module (180a), wherein the imaging device control unit (112) is configured to control the imaging device (114) in response to a trigger event being identified by the trigger detection module (108a).

Abstract: The invention relates to a method for determining, by a scheduler, at least one transmission parameter for each of a plurality of smart meters which each transmit, via power line communication, a measurement report to a control entity. The at least one transmission parameter allows a reporting time for a corresponding smart meter to be determined. The method comprises the following steps: At least one status parameter is collected for each of the plurality of smart meters, the at least one status parameter influencing a success rate of the transmission of the corresponding measurement report to the control entity. For each of the plurality of smart meters, the at least one transmission parameter allowing the reporting time for the corresponding smart meter to be determined, is determined based on the collected at least one status parameter.

Abstract: The disclosure pertains to determining a performance index related to a performance of a communication service provided in a network, wherein the communication service is usable by a mobile user terminal. A method aspect is directed to determining the performance index by comparing performance information associated with a characteristic location of the user terminal and performance information associated with at least one other location visited by the user terminal, the performance index being indicative of a relative performance of the communication service at the characteristic location of the user terminal compared to the at least one other location visited by the user terminal.

Abstract: The invention relates to a method for determining, by a scheduler, at least one transmission parameter for each of a plurality of smart meters which each transmit, via power line communication, a measurement report to a control entity. The at least one transmission parameter allows a reporting time for a corresponding smart meter to be determined. The method comprises the following steps: At least one status parameter is collected for each of the plurality of smart meters, the at least one status parameter influencing a success rate of the transmission of the corresponding measurement report to the control entity. For each of the plurality of smart meters, the at least one transmission parameter allowing the reporting time for the corresponding smart meter to be determined, is determined based on the collected at least one status parameter.

Abstract: The disclosure pertains to determining a performance index related to a performance of a communication service provided in a network, wherein the communication service is usable by a mobile user terminal. A method aspect is directed to determining the performance index by comparing performance information associated with a characteristic location of the user terminal and performance information associated with at least one other location visited by the user terminal, the performance index being indicative of a relative performance of the communication service at the characteristic location of the user terminal compared to the at least one other location visited by the user terminal.

Abstract: A method for identifying an application installed in a user device of a communication system is disclosed. Based on user device and network resources utilized by the user device and installation information about applications installed application, an identification of an application can be performed. An advantage with embodiments of this invention is that an application can be identified, without prior information how the application affects user device and network resources. Malicious and noxious applications can thereby be identified. Also, a resource consumption reporting service offered to the subscribers by the operator is enabled.

Abstract: One or more embodiments of a method and device taught herein provide for monitoring wireless terminal behavior in a wireless communication network, where each wireless terminal has a defined terminal type. Data describing the behavior of a plurality of wireless terminals in the wireless communication network is obtained. Based on the obtained data, an aggregated severity score for a given terminal type is determined that is indicative of the extent to which one or more of a plurality of performance criteria have not been met by wireless terminals of the given terminal type. If the aggregated severity score for the given terminal type exceeds a corresponding severity score threshold, one or more of a plurality of predefined actions are performed based on the extent to which the threshold is exceeded.

Abstract: One or more embodiments of a method and device taught herein provide for monitoring wireless terminal behavior in a wireless communication network, where each wireless terminal has a defined terminal type. Data describing the behavior of a plurality of wireless terminals in the wireless communication network is obtained. Based on the obtained data, an aggregated severity score for a given terminal type is determined that is indicative of the extent to which one or more of a plurality of performance criteria have not been met by wireless terminals of the given terminal type. If the aggregated severity score for the given terminal type exceeds a corresponding severity score threshold, one or more of a plurality of predefined actions are performed based on the extent to which the threshold is exceeded.

Abstract: One or more embodiments of a method and apparatus taught herein provide for the detection of faulty wireless terminals in a wireless communication network. According to an exemplary method, an occurrence of one or more service incidents occurring for a wireless terminal during an observation time period is detected. For each service incident, a service quality score indicative of the severity of incident is determined. A performance metric is calculated responsive to the service quality scores of the wireless terminal occurring during the observation time period. The wireless terminal is determined to faulty if the performance metric exceeds a service quality threshold. A corresponding network node operable to implement the method is also disclosed.