US20170195762A1

Movatterモバイル変換

Info

Publication number: US20170195762A1
Application number: US15/182,643
Authority: US
Inventors: Heng-Chih Lin; Wen-Sheng Hou; Chien-Chen Lin
Original assignee: Airoha Technology Corp
Current assignee: Airoha Technology Corp
Priority date: 2016-01-06
Filing date: 2016-06-15
Publication date: 2017-07-06
Anticipated expiration: 2036-06-15
Also published as: US9716930B1; CN106954168B; CN106954168A

Abstract

A wireless speaker system including one or more self-propelled speaker device is provided. The self-propelled speaker device includes a processing unit, a wireless audio transmitter/receiver unit, a speaker unit, a tracking unit, and an actuator. The wireless audio transmitter/receiver unit is coupled to the processing unit and configured to receive an audio signal via a wireless transmission interface. The speaker unit is coupled to the processing unit and configured to produce sound according to the audio signal. The tracking unit is coupled to the processing unit and configured to track a location of a mobile device. The actuator is coupled to the processing unit. The processing unit controls the actuator according to the location of the mobile device. The actuator drives the self-propelled speaker device to move along with the mobile device.

Description

CROSS-REFERENCE TO RELATED APPLICATION

This application claims the benefits of U.S. provisional application Ser. No. 62/275,289, filed on Jan. 6, 2016, and Taiwan application Serial No. 105109053, filed on Mar. 23, 2016, the subject matters of which are incorporated herein by reference.

TECHNICAL FIELD

The disclosure relates to a wireless speaker system, and more particularly, to a wireless speaker system including a self-propelled speaker device.

BACKGROUND

Multimedia players, such as a speaker device capable of playing music, have become very popular entertainment equipment in our lives. However, transmitting audio signals through audio signal lines may make it difficult to setup or move the speaker devices. As the progress of wireless transmission technology, wireless signal transmission has been applied to speaker devices. Thus, there is a need for designing a wireless speaker system that is easy to use.

SUMMARY

The disclosure relates to a wireless speaker system, including a self-propelled device that is able to move along with a user.

According to one embodiment, a wireless speaker system including one or more self-propelled speaker device is provided. The self-propelled speaker device includes a processing unit, a wireless audio transmitter/receiver unit, a speaker unit, a tracking unit, and an actuator. The wireless audio transmitter/receiver unit is coupled to the processing unit and configured to receive an audio signal via a wireless transmission interface. The speaker unit is coupled to the processing unit and configured to produce sound according to the audio signal. The tracking unit is coupled to the processing unit and configured to track a location of a mobile device. The actuator is coupled to the processing unit. The processing unit controls the actuator according to the location of the mobile device. The actuator drives the self-propelled speaker device to move along with the mobile device.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a diagram illustrating a wireless speaker system according to an embodiment of the disclosure.

FIGS. 2A-2D show diagrams of actuators according to various embodiments of the disclosure.

FIG. 3 shows a diagram illustrating a self-propelled speaker device according to an embodiment of the disclosure.

FIG. 4 shows a diagram illustrating a self-propelled speaker device according to an embodiment of the disclosure.

FIG. 5 shows a diagram illustrating a wireless speaker system according to an embodiment of the disclosure.

FIG. 6A shows a diagram illustrating integrated wireless charging of two self-propelled speaker devices according to an embodiment of the disclosure.

FIG. 6B shows a diagram illustrating an appearance of integrated wireless charging of two self-propelled speaker devices according to an embodiment of the disclosure.

FIG. 7 shows a diagram illustrating a wireless speaker system according to an embodiment of the disclosure.

FIG. 8A shows a diagram illustrating integrated wireless charging of three self-propelled speaker devices according to an embodiment of the disclosure.

FIG. 8B shows a diagram illustrating an appearance of integrated wireless charging of three self-propelled speaker devices according to an embodiment of the disclosure.

FIG. 9 shows a diagram illustrating a wireless speaker system in use according to an embodiment of the disclosure.

In the following detailed description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the disclosed embodiments. It will be apparent, however, that one or more embodiments may be practiced without these specific details. In other instances, well-known structures and devices are schematically shown in order to simplify the drawing.

DETAILED DESCRIPTION

FIG. 1 shows a diagram illustrating a wireless speaker system according to an embodiment of the disclosure. Thewireless speaker system1 may include one or more self-propelled speaker devices. In this embodiment, one first self-propelledspeaker device10 is included. The first self-propelledspeaker device10 includes afirst processing unit100, a first wireless audio transmitter/receiver unit102, afirst speaker unit104, afirst tracking unit106, and afirst actuator108. The first wireless audio transmitter/receiver unit102 is coupled to thefirst processing unit100 and configured to receive a first audio signal S1 via a wireless transmission interface. Thefirst speaker unit104 is coupled to thefirst processing unit100 and configured to produce sound according to the first audio signal S1. Thefirst tracking unit106 is coupled to thefirst processing unit100 and configured to track a location of a mobile device M1. Thefirst actuator108 is coupled to thefirst processing unit100. Thefirst processing unit100 controls thefirst actuator108 according to the location of the mobile device M1. Thefirst actuator108 drives the first self-propelledspeaker device10 to move along with the mobile device M1.

Thefirst processing unit100 may be a microcontroller, a central processing unit (CPU), or a digital logic circuit. Thefirst processing unit100 acts as a core control unit of the first self-propelledspeaker device10 to control operations of other units. For example, thefirst processing unit100 may include a processor and a memory. The control related to operations of the first self-propelledspeaker device10 may be accomplished by programs that are stored in the memory. The processor may load the program from the memory to perform related control operations.

The first wireless audio transmitter/receiver unit102 receives the first audio signal S1 via the wireless transmission interface. There may be several implementations for the wireless transmission interface, including Bluetooth, wireless local area network (such as Wi-Fi), Near Field Communication (NFC), and other wireless transmission technologies. The first audio signal S1 may refer to an encoded signal after encoding the original audio signal, and the encoded signal may be transmitted via the wireless transmission interface. Therefore the frequency range of the first audio signal S1 is not restricted by the frequency limits of human hearing. Taking Bluetooth communication as an example, the communication protocol adopted may be Bluetooth 4.0, the first wireless audio transmitter/receiver unit102 may be a Bluetooth transceiver including a Bluetooth antenna, and the first audio signal S1 may be an encoded signal that conforms to Bluetooth protocol, such as being encode by sub-band coding (SBC) or advanced audio coding (AAC). In addition to receiving an audio signal, the first wireless audio transmitter/receiver unit102 may also transmit an audio signal via the wireless interface to other devices.

Thefirst processing unit100 may decode the encoded first audio signal S1, and transmit the decoded signal to thefirst speaker unit104. Thefirst speaker unit104 converts the electrical signal received from thefirst processing unit100 to a sound to be played. Thefirst speaker unit104 may include a digital to analog converter (DAC) and a power amplifier.

The first wireless audio transmitter/receiver unit102 may receive the first audio signal S1 from an electronic device that supports Bluetooth protocol. In one embodiment, the first wireless audio transmitter/receiver unit102 receives the first audio signal S1 from a mobile device M1 that supports Bluetooth protocol. The mobile device M1 may be a cellphone, a tablet computer, a laptop computer, or a wearable device. For example, a user may operate a cellphone to select a song such that the song may be played by the first self-propelledspeaker device10.

Thefirst actuator108 provides moving power for the first self-propelledspeaker device10. Thefirst actuator108 receives control signal from thefirst processing unit100 and converts the electrical signal to produce mechanical kinetic energy and drives the first self-propelledspeaker device10 to move correspondingly. There may be several implementations for thefirst actuator108 to provide various sources of moving power for the first self-propelledspeaker device10. Depending on the moving region and environment of the first self-propelledspeaker device10, thefirst actuator108 includes at least one of the following: a motor, a wheel, a continuous track, a propeller, and a paddle wheel.

FIGS. 2A-2D show diagrams of actuators according to various embodiments of the disclosure.FIG. 2A shows a motor and wheels, wherein the motor drives the wheels to rotate. For example, the first self-propelledspeaker device10 includes a casing. Thefirst processing unit100, the first wireless audio transmitter/receiver unit102, thefirst speaker unit104, and thefirst tracking unit106 may be disposed interior to the casing. The shape of the casing may be cubic or spherical, which is not limited thereto. Taking a cubic casing for example, wheels may be disposed exterior to the casing, such that the first self-propelledspeaker device10 may move on the ground, such as moving forward, backward, and making turns. In another embodiment, the first self-propelledspeaker device10 may include a spherical casing. Wheels may be disposed interior to the casing. Wheels rotate to provide driving force for the spherical casing to roll on the ground, with the rolling speed and direction controlled by the motor and wheels.

FIG. 2B shows continuous tracks and wheels. Continuous tracks are good at overcoming obstacles on the ground, such as messy items or bumpiness on the ground.FIG. 2C shows a propeller, which may be disposed exterior to the casing and driven by a motor. The propeller may provide flying power to the first self-propelledspeaker device10 to control the flying speed and direction in the air.FIG. 2D shows a paddle wheel, which may be disposed exterior to the casing. The casing may be made of waterproof materials. The paddle wheel may provide navigation power to the first self-propelledspeaker device10 in water when driven by a motor to control the navigation speed and direction. Various implementation embodiments regarding thefirst actuator108 are shown inFIGS. 2A-2D. Thefirst actuator108 may also include multiple elements shown inFIGS. 2A-2D, such that the first self-propelledspeaker device10 may move on the ground, in the air, and in the water.

Thefirst tracking unit106 is configured to track a location of the mobile device M1. Thefirst tracking unit106 and the mobile device M1 may communicate via wireless signal transmission, such that thefirst tracking unit106 obtains the location of the mobile device M1. For example, thefirst tracking unit106 and the mobile device M1 may use indoor positioning technologies, including Wi-Fi (such as Wi-Fi triangulation, Wi-Fi fingerprinting), Bluetooth (such as iBeacon), Zigbee, infrared, radio frequency identification (RFID), etc. Taking Bluetooth for example, the mobile device M1 may act as a Beacon to broadcast signal continuously. Thefirst tracking unit106 receives signal via a Bluetooth transmission interface to obtain the location information of the mobile device M1.

Thefirst tracking unit106 may transmit the location information of the mobile device M1 to thefirst processing unit100. Thefirst processing unit100 controls thefirst actuator108 according to the location of the mobile device M1. For example, thefirst processing unit100 may calculate the required acceleration vector (including direction and magnitude) in order to follow the mobile device M1. Thefirst actuator108 drives the first self-propelledspeaker device10 to move according to the control signal from thefirst processing unit100.

Thefirst processing unit100, the first wireless audio transmitter/receiver unit102, thefirst speaker unit104, thefirst tracking unit106, and thefirst actuator108 may be implemented by hardware circuits. These units are depicted as separate modules inFIG. 1 for purpose of clear illustration and better understanding. In practice, several units may be integrated in a single circuit. For example, the first wireless audio transmitter/receiver unit102 and thefirst tracking unit106 both use Bluetooth transmission, and hence these two units may be integrated in a single Bluetooth chip.

Because the wireless speaker system described in the previous embodiments includes a self-propelled speaker device, which is able to move and play music, the wireless speaker system can provide users high level of entertainment. The self-propelled speaker device may move on the ground, in the air, or in the water, making it very convenient in practical use. In addition, because the self-propelled speaker device includes a tracking unit, when a user carries a mobile device, such as a cellphone, a wearable device, or a positioning tag, the tracking unit is able to recognize the location of this mobile device, such that the self-propelled speaker device can move along with the user. Therefore, no matter where the user goes, the self-propelled speaker device can automatically follow the user and play music at the same time, offering an excellent user experience.

FIG. 4 shows a diagram illustrating a self-propelled speaker device according to an embodiment of the disclosure. In this embodiment, the first self-propelled speaker device10_c further includes a firstenvironment detection unit122, auser control interface124, and alight display unit126. These three units may be optionally disposed. In one embodiment, the first self-propelled speaker device10_c may include only one or two of these three units. Three units are depicted inFIG. 4 to illustrate a possible implementation, rather than limiting the present invention.

The firstenvironment detection unit122 is coupled to thefirst processing unit100 and configured to detect a geographical environment surrounding the first self-propelled speaker device10_c. Thefirst processing unit100 controls thefirst actuator108 according to the geographical environment surrounding the first self-propelled speaker device10_c. The firstenvironment detection unit122 may include camera lens and/or proximity sensors. The camera lens may capture images of the surroundings to identify if there are obstacles or walls nearby, such that thefirst processing unit100 is able to decide when to detour or make turns. The proximity sensors may detect the distance between the first self-propelled speaker device10_c and the near objects, such that the first self-propelledspeaker device10 can avoid bumping into obstacles in the surrounding environment.

The firstuser control interface124 is coupled to thefirst processing unit100 and is configured to receive a control command. Thefirst processing unit100 controls thefirst actuator108 according to the control command, and thefirst actuator108 drives the first self-propelled speaker device10_c to move according to the control command. In one embodiment, the first self-propelled speaker device10_c has two operation modes, including auto and manual modes. In the auto mode, the first self-propelled speaker device10_c may move along with the mobile device M1 according to the signals generated by thefirst tracking unit106. In the manual mode, the user may instruct the first self-propelledspeaker device10 how to move. For example, the user may install a corresponding application program on the cellphone and give command via the application program on the cellphone. Therefore, the user may remotely control how the first self-propelled speaker device10_c moves. As such, the first self-propelled speaker device10_c may move to specific locations in response to the user's request.

The firstlight display unit126, including a lighting device, is coupled to thefirst processing unit100. Thefirst processing unit100 may be configured to analyze the first audio signal S1 to obtain first audio characteristic data. The firstlight display unit126 is configured to adjust color and/or light intensity of the lighting device according to the first audio characteristic data. The lighting device may include multiple light emitting diodes (LED). Thefirst processing unit100 may include an audio analysis unit (either a software unit or a hardware unit) to analyze the first audio signal S1 to obtain first audio characteristic data. For example, the signal in time domain may be analyzed to generate a corresponding spectrum. Depending on the frequency components of the first audio signal S1, the firstlight display unit126 may adjust the color of the lighting device. For example, red may be displayed when there are more high frequency components, while blue may be displayed when there are more low frequency components. In addition, depending on the magnitude on the spectrum of the first audio signal S1, the firstlight display unit126 may adjust the light intensity of the lighting device. In this embodiment, the first self-propelled speaker device10_c changes the lighting corresponding to the characteristics of the music, providing even richer entertaining effects.

FIG. 5 shows a diagram illustrating a wireless speaker system according to an embodiment of the disclosure. As described above, the wireless speaker system may include one or more self-propelled speaker devices. In this embodiment, thewireless speaker system1 includes a first self-propelledspeaker device10 and a second self-propelledspeaker device20. The second self-propelledspeaker device20 may be the same as or similar to the first self-propelledspeaker device10. The second self-propelledspeaker device20 includes asecond processing unit200, a second wireless audio transmitter/receiver unit202, asecond speaker unit204, asecond tracking unit206, and asecond actuator208. The second wireless audio transmitter/receiver unit202 may receive the second audio signal S2 via the wireless transmission interface (which may be the same as the wireless transmission interface used in the first self-propelledspeaker device10, such as using Bluetooth in both devices or using Wi-Fi in both devices). Thesecond tracking unit206 may also track the location of the mobile device M1. Operations of other units are similar to those in the first self-propelledspeaker device10 and thus are not repeater here.

In this embodiment, because thewireless speaker system1 includes the first self-propelledspeaker device10 and the second self-propelledspeaker device20, thefirst speaker unit104 may be a left channel speaker and thesecond speaker unit204 may be a right channel speaker to produce a stereophonic sound. For example, the first audio signal S1 received by the first self-propelledspeaker device10 may come from the mobile device M1. After being processed by thefirst processing unit100, the first audio signal S1 may be divided into a left channel audio signal and a right channel audio signal. The left channel audio signal may be played by thefirst speaker unit104. The second audio signal S2 received by the second self-propelledspeaker device20 may come from the first self-propelledspeaker device10 and may be corresponding to the right channel audio signal. The first wireless audio transmitter/receiver unit102 transmits the right channel audio signal to the second wireless audio transmitter/receiver unit202, and thesecond speaker unit204 plays the right channel audio signal.

Thesecond tracking unit206 may also track the location of the mobile device M1, and thus the second self-propelledspeaker device20 can move along with the mobile device M1 as well. In one embodiment, thefirst tracking unit106 is further configured to track the location of the second self-propelledspeaker device20. Thefirst processing unit100 controls thefirst actuator108 according to the location of the second self-propelledspeaker device20. Thesecond tracking unit206 is further configured to track the location of the first self-propelledspeaker device10. Thesecond processing unit200 controls thesecond actuator208 according to the location of the first self-propelledspeaker device10.

For example, thefirst tracking unit106 may be a wireless transceiver. In addition to receiving wireless signals transmitted from other devices, thefirst tracking unit106 may also broadcast wireless signals, such that thesecond tracking unit206 may identify the location of thefirst tracking unit106. Similarly, thesecond tracking unit206 may also be a wireless transceiver capable of transmitting and receiving wireless signals. As such, the first self-propelledspeaker device10 and the second self-propelledspeaker device20 know the location of each other and can automatically adjust the distance in-between accordingly. A better sound playing effect may be achieved because the distance between the first self-propelledspeaker device10 and the second self-propelledspeaker device20 can be kept in a reasonable range. Furthermore, the locations of these two self-propelled speaker devices may be adjusted according to the location of the mobile device M1. For example, the orientations of thefirst speaker unit104 and thesecond speaker unit204 may be adjusted automatically to make them both face the mobile device M1.

The first self-propelled speaker device10_d includes the firstpower supply unit110, the firstwireless charging unit112, and the firstwireless charging base130. The second self-propelled speaker device20_d includes the secondpower supply unit210 and the secondwireless charging unit212. The firstwireless charging unit112 is inductively coupled to an external charger to charge the firstpower supply unit110. The secondwireless charging unit212 is inductively coupled to the firstwireless charging base130 to charge the secondpower supply unit210. For example, the secondwireless charging unit212 may stick to the firstwireless charging base130 by the magnetic force. When performing wireless charging, the first self-propelled speaker device10_d and the second self-propelled speaker device20_d may be tied together. The external charger provides energy to the firstwireless charging unit112, and the firstwireless charging base130 provides energy to the secondwireless charging unit212, achieving the effect of integrated wireless charging.

FIG. 6B shows a diagram illustrating an appearance of integrated wireless charging of two self-propelled speaker devices according to an embodiment of the disclosure. Although a cubic casing is used in this embodiment, other shapes may also be applicable to the casing of the self-propelled speaker device. When performing wireless charging, the first self-propelled speaker device10_d may be put above the external charger base, and the second self-propelled speaker device20_d may be put above the first self-propelled speaker device10_d. Only one external charger base is required for integrated wireless charging of two self-propelled speaker devices, hence improving the usage convenience.

FIG. 7 shows a diagram illustrating a wireless speaker system according to an embodiment of the disclosure. In this embodiment, thewireless speaker system1 includes the first self-propelledspeaker device10, the second self-propelledspeaker device20, and the third self-propelledspeaker device30. The third self-propelledspeaker device30 may be the same as or similar to the second self-propelledspeaker device20. The third self-propelledspeaker device30 includes athird processing unit300, a third wireless audio transmitter/receiver unit302, athird speaker unit304, athird tracking unit306, and athird actuator308. The third wireless audio transmitter/receiver unit302 may receive the third audio signal S3 via the wireless transmission interface (which may be the same as the wireless transmission interface used in the second self-propelled speaker device20). Thethird tracking unit306 may also track the location of the mobile device M1. Operations of other units are similar to those in the second self-propelledspeaker device20 and thus are not repeater here.

In one embodiment, thefirst speaker unit104 may be a bass channel speaker (a woofer designed to produce low frequency sounds), thesecond speaker unit204 may be a right channel speaker, and thethird speaker unit304 may be a left channel speaker to produce a stereophonic sound. Bass component of the sound can be enhanced in this embodiment. Because the base channel speaker may occupy larger space, the casing of the first self-propelledspeaker device10 may be larger than the casing of the second self-propelledspeaker device20 or the third the casing of the first self-propelledspeaker device30.

In one embodiment, the third wireless audio transmitter/receiver unit302 may receive the third audio signal S3 from the mobile device M1. After being processed by thethird processing unit300, the third audio signal S3 may be divided into a left channel audio signal, a right channel audio signal, and a bass channel audio signal. Thethird speaker unit304 may play the left channel audio signal. The first wireless audio transmitter/receiver unit102 may receive the first audio signal S1 from the third self-propelled speaker device30 (such as being transmitted by the third wireless audio transmitter/receiver unit302). The first audio signal S1 may be corresponding to the bass channel audio signal. The second wireless audio transmitter/receiver unit202 may also receive the second audio signal S2 from the third self-propelled speaker device30 (such as being transmitted by the third wireless audio transmitter/receiver unit302). The second audio signal S2 may be corresponding to the right channel audio signal. The signal transmission method disclosed herein is just exemplary rather than limiting. There may be other different implementation methods for signal transmission between these three self-propelled speaker devices.

Because thethird tracking unit306 may also track the location of the mobile device M1, the third self-propelledspeaker device30 may also move along with the mobile device M1. In one embodiment, the first self-propelledspeaker device10, the second self-propelledspeaker device20, and the third self-propelledspeaker device30 track the locations of each other by thefirst tracking unit106, thesecond tracking unit206, and thethird tracking unit306, respectively. Thefirst processing unit100, thesecond processing unit200, and thethird processing unit300 may accordingly control thefirst actuator108, thesecond actuator208, and thethird actuator308, respectively. In other words, thefirst tracking unit106, thesecond tracking unit206, and thethird tracking unit306 know the locations of each other, and thus the three self-propelled speaker devices may be adjusted automatically according to, for example, the distances between these three self-propelled speaker devices to achieve the best surround sound effect. In addition, based on the location of the mobile device M1, the orientations of thefirst speaker unit104, thesecond speaker unit204, and thethird speaker unit304 may be adjusted automatically to make them all face the mobile device M1. Taking Bluetooth positioning for example, thefirst tracking unit106, thesecond tracking unit206, and thethird tracking unit306 may all receive the positioning signal from the mobile device M1, and these three tracking units may also communicate to each other. Accurate positioning effect may be achieved by an appropriate calculation based on locations of multiple points in the space.

The second self-propelledspeaker device20 and the third self-propelledspeaker device30 shown inFIG. 5 andFIG. 7 may also include an environmental detection unit (detecting the surrounding geographical environment), a user control interface (enabling manual mode for movement control), and a light display unit (changing lights according to the music played), just like the embodiment shown inFIG. 4. The operation details of these units may be referred to the first self-propelled speaker device10_c inFIG. 4 and are not repeater here. In one embodiment, thewireless speaker system1 may include more than three self-propelled speaker devices to accomplish a more complete surround stereo effect. The elements and operations of each self-propelled speaker device may be similar to the embodiments described above (such as being capable of tracking the mobile device M1, being integrated for wireless charging) and thus are not repeated here.

It will be apparent to those skilled in the art that various modifications and variations can be made to the disclosed embodiments. It is intended that the specification and examples be considered as exemplary only, with a true scope of the disclosure being indicated by the following claims and their equivalents.

Claims

What is claimed is:

1. A wireless speaker system, comprising:

a first self-propelled speaker device, comprising:

a first processing unit;

a first wireless audio transmitter/receiver unit, coupled to the first processing unit, configured to receive a first audio signal via a wireless transmission interface;

a first speaker unit, coupled to the first processing unit, configured to produce sound according to the first audio signal;

a first tracking unit, coupled to the first processing unit, configured to track a location of a mobile device; and

a first actuator, coupled to the first processing unit, wherein the first processing unit controls the first actuator according to the location of the mobile device, and the first actuator drives the first self-propelled speaker device to move along with the mobile device.

2. The wireless speaker system according toclaim 1, wherein the first self-propelled speaker device further comprises:

a first power supply unit, configured to supply power to the first self-propelled speaker device; and

a first wireless charging unit, coupled to the first power supply unit, and inductively coupled to an external charger to charge the first power supply unit.

3. The wireless speaker system according toclaim 1, wherein the first self-propelled speaker device further comprises:

a first environment detection unit, coupled to the first processing unit, configured to detect a geographical environment surrounding the first self-propelled speaker device, wherein the first processing unit controls the first actuator according to the geographical environment surrounding the first self-propelled speaker device.

4. The wireless speaker system according toclaim 1, wherein the first self-propelled speaker device further comprises:

a first user control interface, coupled to the first processing unit, configured to receive a control command, wherein the first processing unit controls the first actuator according to the control command, and the first actuator drives the first self-propelled speaker device to move according to the control command.

5. The wireless speaker system according toclaim 1, wherein the first self-propelled speaker device further comprises:

a first light display unit, coupled to the first processing unit, the first light display unit comprising a lighting device, wherein the first processing unit is configured to analyze the first audio signal to obtain first audio characteristic data, and the first light display unit is configured to adjust color and/or light intensity of the lighting device according to the first audio characteristic data.

6. The wireless speaker system according toclaim 1, wherein the first actuator comprises at least one of a motor, a wheel, a continuous track, a propeller, and a paddle wheel.

7. The wireless speaker system according toclaim 1, further comprises:

a second self-propelled speaker device, comprising:

a second processing unit;

a second wireless audio transmitter/receiver unit, coupled to the second processing unit, configured to receive a second audio signal via the wireless transmission interface;

a second speaker unit, coupled to the second processing unit, configured to produce sound according to the second audio signal;

a second tracking unit, coupled to the second processing unit, configured to track the location of the mobile device; and

a second actuator, coupled to the second processing unit, wherein the second processing unit controls the second actuator according to the location of the mobile device, and the second actuator drives the second self-propelled speaker device to move along with the mobile device.

8. The wireless speaker system according toclaim 7, wherein the first tracking unit is further configured to track a location of the second self-propelled speaker device, the first processing unit is further configured to control the first actuator according to the location of the second self-propelled speaker device, the second tracking unit is further configured to track a location of the first self-propelled speaker device, and the second processing unit is further configured to control the second actuator according to the location of the first self-propelled speaker device.

9. The wireless speaker system according toclaim 7, wherein the first self-propelled speaker device further comprises:

a first power supply unit, configured to supply power to the first self-propelled speaker device;

a first wireless charging unit, coupled to the first power supply unit, and inductively coupled to an external charger to charge the first power supply unit; and

a first wireless charging base;

wherein the second self-propelled device further comprises:

a second power supply unit, configured to supply power to the second self-propelled speaker device; and

a second wireless charging unit, coupled to the second power supply unit, and inductively coupled to the first wireless charging base to charge the second power supply unit.

10. The wireless speaker system according toclaim 7, further comprises:

a third self-propelled speaker device, comprising:

a third processing unit;

a third wireless audio transmitter/receiver unit, coupled to the third processing unit, configured to receive a third audio signal via the wireless transmission interface;

a third speaker unit, coupled to the third processing unit, configured to produce sound according to the third audio signal;

a third tracking unit, coupled to the third processing unit, configured to track the location of the mobile device; and

a third actuator, coupled to the third processing unit, wherein the third processing unit controls the third actuator according to the location of the mobile device, and the third actuator drives the third self-propelled speaker device to move along with the mobile device.

11. The wireless speaker system according toclaim 10, wherein the first self-propelled speaker device, the second self-propelled speaker device, and the third self-propelled speaker device track locations of each other by the first tracking unit, the second tracking unit, and the third tracking unit, respectively, and the first processing unit, the second processing unit, and the third processing unit accordingly control the first actuator, the second actuator, and the third actuator, respectively.

12. The wireless speaker system according toclaim 10, wherein

the first self-propelled speaker device further comprises:

a first wireless charging base;

the second self-propelled device further comprises:

a second wireless charging unit, coupled to the second power supply unit, and inductively coupled to the first wireless charging base to charge the second power supply unit;

the third self-propelled device further comprises:

a third power supply unit, configured to supply power to the third self-propelled speaker device; and

a third wireless charging unit, coupled to the third power supply unit, and inductively coupled to the first wireless charging base to charge the third power supply unit.

13. The wireless speaker system according toclaim 10, wherein the first speaker unit is a bass channel speaker, the second speaker unit is a right channel speaker, and the third speaker unit is a left channel speaker.

14. The wireless speaker system according toclaim 10, wherein the first wireless audio transmitter/receiver unit receives the first audio signal from the third self-propelled speaker device, the second wireless audio transmitter/receiver unit receives the second audio signal from the third self-propelled speaker device, and the third wireless audio transmitter/receiver unit receives the third audio signal from the mobile device.