Innovative new systems and method of operating the systems, wherein the system comprises an airborne platform comprising an unmanned balloon comprising a gas enclosure; a geographic locator or tracking system configured to determine geographical coordinates of the unmanned balloon; a payload comprising a transceiver, wherein the transceiver is capable of communicating with communication devices that are separate from the unmanned balloon; first and second flight-termination devices each configured to cause termination of a flight of the unmanned balloon; and at least two power sources each configured to provide power to at least one of the first and second flight-termination devices.

A method for validating data content in a wirelessly received communication signal, wherein the data content includes at least one position statement for a transmission module sending the communication signal, wherein the communication signal is received by a reception module having at least two antennas, wherein the communication signal is used to determine a direction from the reception module to the transmission module and wherein the determined direction is used to validate the position statement. The direction is determined from a phrase difference in the communication signal at the at least two antennas. The invention further relates to a corresponding communication apparatus and to a use for the communication apparatus.

A method for validating data content in a wirelessly received communication signal, wherein the data content includes at least one position statement for a transmission module sending the communication signal, wherein the communication signal is received by a reception module having at least two antennas, wherein the communication signal is used to determine a direction from the reception module to the transmission module and wherein the determined direction is used to validate the position statement. The direction is determined from a phrase difference in the communication signal at the at least two antennas. The invention further relates to a corresponding communication apparatus and to a use for the communication apparatus.

Methods, systems, and devices for wireless communication are described. A base station may receive a first measurement report from a user equipment (UE) that includes an indication of a measurement parameter associated with a first beamformed reference signal. The base station may receive additional measurement reports from the UE for additional base stations. The additional measurement reports may include an indication of measurement parameters associated with additional beamformed reference signals transmitted by the additional base stations. The base station may identify a location of the UE based on the first measurement report and the additional measurement report. Alternatively, the UE may transmit multiple beamformed sounding reference signals to multiple base stations, and a single base station may identify a location of the UE based on multiple reports collected from the multiple base stations.

Methods, systems, and devices for wireless communication are described. A base station may receive a first measurement report from a user equipment (UE) that includes an indication of a measurement parameter associated with a first beamformed reference signal. The base station may receive additional measurement reports from the UE for additional base stations. The additional measurement reports may include an indication of measurement parameters associated with additional beamformed reference signals transmitted by the additional base stations. The base station may identify a location of the UE based on the first measurement report and the additional measurement report. Alternatively, the UE may transmit multiple beamformed sounding reference signals to multiple base stations, and a single base station may identify a location of the UE based on multiple reports collected from the multiple base stations.

The present application relates to a remote control device for controlling a plurality of controllable devices. The remote control device comprises at least two spaced apart antennas for receiving a radio signal from a same positioning device, a sending unit for sending a control signal, and a control unit. The control unit is configured to determine a position information of the remote control device in relation to the positioning device based on the radio signal, to select a controllable device of the plurality of controllable devices depending on the position information, and to send a control information for controlling the selected controllable device via the control signal with the sending unit to the selected controllable device.

Techniques for wirelessly receiving, at a mobile device, information related to another mobile device determined to be in a line of sight relative to the mobile device, are presented. In an aspect, a method includes, determining by a first mobile device, a location of a mobile object determined to be in a line of sight relative to the first mobile device, and wirelessly receiving descriptive information associated with a second mobile device having a location substantially corresponding to the location of the mobile object.

A transmitter which emits at least two electromagnetic fields. An amplitude of each of the at least two electromagnetic fields has an anisotropy in one plane. An angular arrangement of the receiver relative to the transmitter is determined based on the amplitude of the at least two electromagnetic fields at the position of a receiver.

Systems and methods for improved location accuracy are provided. For example, some systems can include a location engine, and a plurality of location anchors. In some embodiments, each of the plurality of location anchors can transmit or receive signals to or from an object for determining an angular orientation of the object with respect to the plurality of location anchors, and based on the angular orientation, the location engine can estimate a location of the object. In some embodiments, each of the plurality of location anchors can transmit first signals to the location engine, the location engine can receive a second signal from an object, based on the first signals and the second signal, the location engine can determine a differential pressure between the plurality of location anchors and the object, and based on the differential pressure, the location engine can estimate an altitude of the object.

A method using an array of ESM receivers comprises; a step of determining a first locus on the basis of a first measurement giving information on the angle difference of arrival of the emission beam on two receivers, the first locus including the points in space giving the same first measurement on the two receivers; a step of determining a second locus on the basis of a second measurement giving information on the direction of arrival on at least one receiver, the second locus including the points in space giving the same second measurement on the receiver; and a step of determining a third locus on which the position of the source is found, the third locus being the intersection of the first locus and of the second locus.