Wireless audio transmission system having at least one microphone hand-held transmitter and/or bodypack

Abstract

A method of wireless audio transmission between a wireless transmitter and a wireless receiver in a program making special event PMSE system. An audio signal is transmitted from the at least one wireless transmitter to the wireless receiver by way of a first wireless transmission path. The at least one wireless transmitter is coupled to a smart device by way of a second wireless transmission path in order to exchange parameters and/or data. Exchange of parameters and/or data occurs between the smart device and the wireless receiving unit by way of a network, in particular the Internet.

Claims

1. A method of wireless audio transmission between at least one wireless transmitter, in form of a wireless handheld microphone or a wireless body pack, and a wireless receiver in a program making special event (PMSE) system, comprising: transmitting an audio signal by way of a first unidirectional wireless transmission path from the at least one wireless transmitter to the wireless receiver; coupling the at least one wireless transmitter to a smart device by way of a second bidirectional wireless transmission path to exchange parameters and/or data for the wireless transmitter or the first unidirectional wireless transmission path; and exchanging parameters and/or data for the wireless transmitter or the first unidirectional wireless transmission path between the smart device and the wireless receiver by way of a network; wherein the first unidirectional wireless transmission path has a latency of <5 ms and permit a direct transmission between the at least one wireless transmitter (10) and the wireless receiver based on the exchanged parameters and/or data, and wherein the parameters of the at least one wireless transmitter are adjusted based on parameters and/or data exchanged between wireless receivers via the smart device and the at least one wireless transmitter.

2. A method as set forth in claim 1, wherein the first wireless transmission path is based on a first transmission method, and wherein the second wireless transmission path is based on a second transmission method and is independent of the first wireless transmission path.

3. A method as set forth in claim 1, the method further comprising: adjusting the parameters of the at least one wireless transmitter by means of the smart device.

4. A method as set forth in claim 1, wherein the first transmission path is based on an analog frequency modulation or a proprietary digital modulation.

5. A wireless audio transmission system, comprising: at least one wireless transmitter for wireless transmission of an audio signal by way of a first unidirectional wireless transmission path, the at least one wireless transmitter comprising a wireless handheld microphone or a wireless body pack; a wireless receiver for receiving from the at least one wireless transmitter an audio signal transmitted by way of the first unidirectional wireless transmission path; and a smart device coupled to the at least one wireless transmitter by way of a second wireless transmission path, wherein the smart device and the wireless receiver are coupled together by way of a network to exchange parameters and/or data for the at least one wireless transmitter and/or the first unidirectional wireless transmission path, wherein the second wireless transmission path is of a bidirectional configuration, wherein the first wireless transmission path has a latency of <5 ms and permits a direct transmission between the at least one wireless transmitter and the wireless receiver based on the parameters and/or data exchanged via the second wireless transmission path, and wherein the parameters of the at least one wireless transmitter are adjusted based on parameters and/or data exchanged between wireless receivers via the smart device and the at least one wireless transmitter.

6. A wireless audio transmission system as set forth in claim 5, wherein the first wireless transmission path is based on a first transmission method, and wherein the second wireless transmission path is based on a second transmission method and is independent of the first wireless transmission path.

7. A wireless audio transmission system as set forth in claim 5, wherein the at least one wireless transmitter is without a display, and wherein the smart device is adapted to adjust the parameters of the at least one wireless transmitter.

8. A wireless audio transmission system as set forth in claim 5, wherein the at least one wireless transmitter is connected directly to the wireless receiver by way of a further additional wireless transmission path.

9. A wireless audio transmission system as set forth in claim 5, wherein the first transmission path is based on an analog frequency modulation or a proprietary digital modulation.

Description

BRIEF DESCRITPION OF THE DRAWINGS

(1) Advantages and embodiments by way of example of the invention are described in greater detail hereinafter with reference to the drawing.

(2) FIG. 1 shows a diagrammatic view of an audio transmission system according to a first embodiment,

(3) FIG. 2 shows a diagrammatic view of an audio transmission system according to a second embodiment, and

(4) FIG. 3 shows a diagrammatic view of a wireless audio transmission system according to a third embodiment.

DETAILED DESCRIPTION OF THE INVENTION

(5) According to the invention there is provided a wireless audio transmission system which represents in particular a program making special event PMSE system. The PMSE system typically has at least one wireless transmitter in the form for example of a wireless handheld microphone and/or a wireless bodypack. There is also a wireless receiver.

(6) FIG. 1 shows a diagrammatic view of an audio transmission system according to a first embodiment. The wireless audio transmission system has at least one wireless transmitter 10, a wireless receiver 50 and optionally a server 70. In addition there is at least one smart device 20 in the transmission system. There is a first wireless audio transmission path 80 between the wireless transmitter 10 and the wireless receiver 50. That first wireless transmission path 80 can be of a digital or analog configuration. The at least one wireless transmitter 10 is coupled to the smart device 20 by way of a second wireless transmission path 30. The smart device 20 can be coupled to the Internet 1 by way of a third wireless transmission path 40. The wireless receiving unit 50 can also be connected to the Internet by way of a fourth wireless transmission path 60. The server 70 can also be coupled to the Internet 1.

(7) The first wireless transmission path 80 has a particularly low transmission latency of <5 ms which can be achieved with an analog frequency modulation FM or a proprietary digital modulation. The first wireless transmission path 80 represents a direct wireless transmission. That is achieved for example without an intermediate buffer. This therefore provides a wireless transmission between a wireless transmitter, for example a microphone, and a wireless receiver. The second wireless transmission path 230 is a different wireless transmission path from the first wireless transmission path 80.

(8) The wireless transmitter 10 which is in the form of a radio microphone, handheld radio microphone or bodypack can be coupled to the smart device 20 by way of the second wireless transmission path 30 (for example Bluetooth Low Energy, WLAN). Preferably the second wireless transmission path 30 is in the form of a short-range and low-power consumption transmission path. While the wireless transmitter 10 transmits the audio data to the wireless receiver 50 by way of the first wireless transmission path 80 a feedback channel is implemented for adjusting parameters of the wireless transmitter 10 by the second transmission path 30, the smart device 20, the third transmission path 40, the Internet 1 and the fourth transmission path 60. In other words the wireless receiving unit 50 can adjust the parameters of the wireless microphone 10 by way of the smart device 20, the smart device 20 and the wireless receiving unit 50 being coupled together by way of the Internet 1.

(9) Optionally the smart device 20 can have an app, by means of which the wireless transmitter or the microphone 10 can be controlled. In such a case for example it is possible to dispense with a display directly at the wireless transmitter 10.

(10) The settings implemented by the smart device 20 can be transmitted to the wireless transmitter 10 by way of the second wireless transmission path 30. Furthermore the app on the smart device can use an existing Internet connection 40 (Edge, 3G, LTE, WLAN etc.) in order to exchange control data Over The Top OTT with the wireless receiver 50. The fourth transmission path 60 can have a wireless transmission path or a wired transmission path (LAN). It is important in that respect that the wireless receiver 50 is connected to the Internet 1. The server 70 can be used to store the information which is exchanged by way of the feedback channel in order to be able to later evaluate the adjustments.

(11) According to an aspect of the present invention the second transmission path 30 is of a bidirectional configuration. The proposed system is inexpensive as it is possible to use the infrastructure for the smart device 20.

(12) FIG. 2 shows a diagrammatic view of an audio transmission system according to a second embodiment. According to the second embodiment there is a direct wireless transmission path 90 between the wireless transmitter 10 and the wireless receiver 50 in addition to the first wireless transmission path 80, by way of which the audio signals are transmitted. The wireless receiver 50 can have a further module in order to transmit and receive information transmitted by way of the wireless transmission path 90. In this case it is possible to implement a feedback channel without the Internet and without a smart device 20.

(13) The second embodiment can be meaningful in particular when the Internet connection drops out or when there is no smart device 20. As an alternative to the Bluetooth connection the wireless transmission path 90 can also have an infrared transmission path. Therefore the transmitter 10 must be moved close to the wireless receiver 50 so that the corresponding data can be exchanged.

(14) The wireless transmitter 10 (wireless microphone or bodypack) can be produced more cheaply according to the invention because for example it is possible to dispense with a display.

(15) According to an aspect of the present invention the smart device 20 can add further data to the parameters of the wireless transmitter 10 in the communication with the wireless receiver 50 or the server 70. Such information can include for example position information.

(16) FIG. 3 shows a diagrammatic view of a wireless audio transmission system according to a third embodiment. The audio transmission system according to the third embodiment substantially corresponds to the audio transmission system according to the first embodiment, but the communication between the smart device 20 and the wireless receiver 50 is made not by way of the Internet but by way of a local network 2. That local network can represent a WLAN network, a piconet, a femtocell or the like.

(17) According to the invention the feedback channel between the wireless receiver 50 and the microphone does not have to be real time-capable.

(18) According to an aspect of the present invention the first and second wireless transmission paths are independent of each other. The first wireless transmission path serves for direct communication between the wireless transmitter and the wireless receiver. The second wireless transmission path serves for indirect communication between a smart device which is coupled to the wireless transmitter by way of a second wireless transmission path, for the exchange of parameters with a wireless receiver. The first wireless transmission path permits a transmission with a low latency of <5 ms. The latency of the second wireless transmission path does not have any such restriction. The first wireless transmission path can be based for example on an analog frequency modulation or proprietary digital modulation. The second wireless transmission path does not have any such modulation restriction. The second wireless transmission path can permit for example Bluetooth transmission, WLAN transmission, LTE transmission or the like.