Source: https://patents.google.com/patent/WO2017117531A1/en
Timestamp: 2019-04-25 16:26:52
Document Index: 695665286

Matched Legal Cases: ['§ 120', 'application no. 62', 'art 10', 'art 14', 'art 10', 'art 10', 'art 10']

WO2017117531A1 - Interchangeable rear seat infotainment system - Google Patents
Interchangeable rear seat infotainment system Download PDF
WO2017117531A1
WO2017117531A1 PCT/US2016/069494 US2016069494W WO2017117531A1 WO 2017117531 A1 WO2017117531 A1 WO 2017117531A1 US 2016069494 W US2016069494 W US 2016069494W WO 2017117531 A1 WO2017117531 A1 WO 2017117531A1
PCT/US2016/069494
2015-12-30 Priority to US201562272997P priority Critical
2015-12-30 Priority to US62/272,997 priority
2016-12-30 Application filed by Voxx International Corporation filed Critical Voxx International Corporation
2016-12-30 Priority to US15/395,350 priority
2016-12-30 Priority to US15/395,350 priority patent/US10063904B2/en
2017-07-06 Publication of WO2017117531A1 publication Critical patent/WO2017117531A1/en
A rear seat entertainment system includes an access point and a second housing. The access point includes a first screen and input/output ports. The access point is included in a first housing. The second housing is separate from the first housing and includes a second screen. The access point is configured to display first content on the first screen and stream the first content displayed on the first screen to the second housing so that the first content is displayed on the first and second screens. The access point is further configured to receive second content from a mobile device, display the second content on the first screen and stream the second content displayed on the first screen to the second housing so that the second content is displayed on the first and second screens.
INTERCHANGEABLE REAR SEAT INFOTAINMENT SYSTEM CROSS-REFERENCE TO RELATED APPLICATION
This application claims priority under 35 U.S.C. § 120 to U.S. provisional application no. 62/272,997, filed December 30, 2015, the disclosure of which is incorporated by reference herein in its entirety.
The present invention relates to in-car entertainment or in- vehicle infotainment.
In-car entertainment (ICE), or in-vehicle infotainment (IVI), is a collection of hardware and software in automobiles that provides audio or video entertainment. In car entertainment originated with car audio systems that consisted of radios and cassette or compact disc (CD) players, and now includes automotive navigation systems, video players, universal serial bus (USB) and Bluetooth connectivity, Carputers, in-car internet, and WiFi. Once controlled by simple dashboards, knobs and dials, ICE systems can include steering wheel audio controls and handsfree voice control.
According to an exemplary embodiment of the present invention, there is provided a rear seat entertainment system including: a first access point, wherein the first access point includes a first display screen and a plurality of input/output ports, and wherein the first access point is included in a first housing; and a second housing separate from the first housing, wherein the second housing includes a second display screen, wherein the first access point is configured to display first content on the first display screen and stream the first content displayed on the first display screen to the second housing so that the first content is simultaneously displayed on the first and second display screens, and wherein the first access point is further configured to receive second content from a first mobile device, display the second content on the first display screen and stream the second content displayed on the first display screen to the second housing so that the second content is simultaneously displayed on the first and second display screens.
The first and second housings are each configured to be disposed inside a vehicle seat headrest.
The first and second housings are each configured to be mounted to a vehicle seat.
The plurality of input/output ports include a high-definition multimedia interface (HDMI) port, a universal serial bus (USB) port, an analog audio output port and a secure digital (SD) card port.
The first access point further includes a digital video disc (DVD) player.
The rear seat entertainment system further includes an infrared remote control.
The first access point is further configured to stream the first content displayed on the first display screen to the first mobile device so that the first content is simultaneously displayed on the first display screen, and a third display screen of the first mobile device.
The first access point is further configured to stream the first content displayed on the first display screen to a second mobile device so that the first content is simultaneously displayed on the first display screen, the third display screen of the first mobile device, and a fourth display screen of the second mobile device.
The first mobile device is a smartphone or a tablet. The second housing includes a second access point, wherein the second access point is configured to steam third content to a second mobile device so that the third content is displayed on a third display screen of the second mobile device.
According to an exemplary embodiment of the present invention, there is provided a vehicle entertainment system including: a master device, the master device including a first display screen and a plurality of input/output ports; and a first satellite device, the first satellite device including a second display screen, wherein the master device is configured to receive a hardwired connection via one of the plurality of input/output ports from a first portable device, receive first video content from the first portable device through the hardwired connection, display the first video content on the first display screen and wirelessly steam the first video content to the second display screen, and wherein the master device is further configured to stream the first video content to a second mobile device.
The master device and the satellite device are each configured to be disposed inside a vehicle seat headrest.
The master device and the first satellite device are each configured to be mounted to a vehicle seat.
The master device is further configured to receive second video content via a WiFi connection and wirelessly stream the second video content to the first mobile device or the second mobile device.
Content streaming operations of the master device are controllable with the first or second mobile devices.
The master device is configured to establish a dedicated in-car wireless network. At least one of the first mobile device and the second mobile device is a smartphone or a tablet.
The master device further includes a plurality of input/output ports, wherein the plurality of input/output ports include an HDMI port, a USB port, an analog audio output port and an SD card port.
The master device further includes a DVD player.
The vehicle entertainment system further includes a second satellite device configured to play video content independent of video content played on the first satellite device or the master device.
FIG. 1 illustrates a master device according to an exemplary embodiment of the present invention;
FIG. 2 illustrates a system including the master device, a satellite device and mobile devices according to an exemplary embodiment of the present invention;
FIG. 3 illustrates a wiring diagram of a system according to an exemplary embodiment of the present invention;
FIG. 4 is a circuit diagram of a satellite device according to an exemplary embodiment of the present invention; and
FIG. 5 is a circuit diagram of a master device according to an exemplary embodiment of the present invention.
Disclosed herein is an interchangeable rear seat infotainment system according to an exemplary embodiment of the present invention. In the infotainment system according to an exemplary embodiment of the present invention, users can create and securely log into their own wireless in-car rear-seat infotainment networks and share and stream media content across all occupants of the vehicle regardless of whether the content is stored and viewed on the EVO system or stored and viewed on a passenger's mobile device. The infotainment system accepts content from secure digital (SD) card and high-definition multimedia interface (HDMI)/universal serial bus (USB)-based devices, supports Miracast and digital living network alliance (DLNA) functionality, and features the ability to provide consumers with a live TV experience. For example, using the infotainment system, Slingbox users can connect through an in-car Wi-Fi hotspot and watch the same cable/satellite television package they have in their home including on-demand and previously recorded digital video recorder (DVR) content.
Some exemplary features of the infotainment system include: large (8", 10.1" and up), high resolution screens designed for Headrest, Seatback, Center Console and
Overhead installations; digital Bluetooth connection to the vehicle's infotainment system for high-quality audio playback; traditional "D-Pad" mini remote and mobile smart device app control system facilitating control from a smartphone or directly from the vehicle's center stack; enhanced, intuitive user interface; portable device charging; smart device connectivity and content sharing; simplified vehicle integration with the ability to add the infotainment system to a vehicle independent of its existing controller area network (CAN); flexible architecture designed for feature expansion and updating to meet the changing mobile environment; distributed content playback which allows all screens and smart devices to view the same movie simultaneously. The system architecture comprises two monitor types, Master and Satellite. FIG. 1 shows a Master, while FIG. 2 shows a Master and a Satellite. For example, FIG. 1 shows a Master that includes a display, a DVD player, an SD card port, an audio output port, a USB port, an HDMI port and capacitive touch buttons for control of a graphical user interface.
The individual monitor types of the infotainment are as follows: EVO 0 - Display only (Satellite), EVO 4, (Master with no DVD) and EVO 5, (Master with DVD), for example. The system's wireless components integrate as EVO 5 & EVO 0, EVO 4 & EVO 0, or two EVO 5 monitors. The Master monitor (EVO 4 & EVO 5) are standalone. The EVO 0 (Satellite) must be used in conjunction with either EVO 4 or EVO 5. In other words, EVO 0 is an auxiliary component.
Each infotainment system may contain the following at a minimum: integrated Power Filter; a combination of any two system individual monitor types; a method to share audio/video between components; infrared (IR) Remote Control; IR Wireless Headphones, one for each monitor; and text to speech capability.
Each component may have its own feature set. In this disclosure, the term "component" may mean one of EVO 0, 4 and/or 5. Each system component has the ability to have their microcontroller (MCU) Firmware Profile flashed and software updated via a user accessible USB. Each component may have its own designation which will have its own fit form or function defined.
The following tables contain each system component designation and its feature matrix.
Table 1 EVO0 Feature Matrix
EVO0 Feature Matrix
Display Panel 1024x600 WSVGA High Resolution Display Panel Audio
Wired Headphones 3.5 mm jack wired headphone output
IR Headphone Output Analog IR headphones
IR Remote Control IR remote control of system
GMSL Connection Used for system component interconnect
Low-Level microcontroller system Basic microcontrollers needed for functions
Table 2 EV04 Feature Matrix
EV04 Feature Matrix
Display Panel 1024x600 WSVGA High Resolution Display Panel
USB 2.0 USB 2.0 with support of FAT32 and charging.
MHL 2.0 with HDMI 1.4 MHL 3.0 with HDMI Type A receptacle
SDXC Secure Digital Card reader
Audio hardwire Output Adjustable gain differential or single ended audio
FM Transmitter 98 channel
Bluetooth Audio profile (A2DP) Bluetooth audio profile support
IR Remote Control IR remote control
Bluetooth profile AVRCP 1.5 Bluetooth remote control with feedback
IP Remote control IP remote control will be app based
Auxiliary Monitor Control Control of EVO 0
FCC Remote Control Button To Speech function from remote
High-Level Processor Multimedia Engine
Supported Files and Formats Refer to Codec List.
WLAN Network Create and manage WLAN Access Point
Miracast Receiver Miracast destination point
Multicast Streamer Create a A/V media cast for multiple destinations
DLNA Renderer DLNA destination point
Table 3 EV05 Feature Matrix
EV05 Feature Matrix
Display Panel High Resolution Display Panel
DVD DVD/CD loader
MHL 3.0 with HDMI 1.4 MHL 3.0 with HDMI Type A receptacle SDXC Secure Digital Card reader
Auxiliary Monitor Control Control of extension monitor
High-Level Processor Robust processing architecture
Multimedia Engine Refer to agreed-upon Codec license listing
A detailed description of certain elements of the above feature matrixes and/or other parts of the EVO 0, 4 and 5 monitors will now be described.
Processors and Decoders
(EVO0) - may not have the ability to decode media content; may not have system-on-chip (SOC) or SOM architecture; may only have microprocessors needed to perform features of its feature Matrix.
(EV04/5) - Full iMX6 based SOC or SOM may be used, e.g., iMX6 dual core Freescale SOC; have an operating system, e.g., Android 5.1; have a boot sequence; boot sequence starts once power is applied (e.g., vehicle ignition on) to the system component; capable of digital media playback.
USB Dedicated Charge Port (DCP) USB type A receptacle shall be used. Power requirements support 10 watt charging criteria as outlined in USB Version 2.0 specification. Charging is enabled upon vehicle ignition being turned on. Charging device support fits the following criteria: supports Apple specification for iPhone charging; supports Apple specification for iPad charging; supports charging android phone devices; is able to reduce charging from 10W upon demand to manage max current draw of the system (e.g., during temporary peak current draw conditions) and under low vehicle voltage conditions.
USB Charging Downstream Port (CDP)
USB 2.0 Read and Write - USB Version 2.0 specification compliant; USB type A receptacle shall be used; supports FAT32, NTFS, and exFAT file systems; USB feature supports both read and write as outlined in the USB 2.0 specification; supports up to a 1TB USB drive.
USB Content sourcing - USB content is able to be sourced between system components; USB content sourced from another system component is able to play simultaneous on both system components without any A/V sync issues.
MHL 2.0 - MHL Version 2.0 specification compliant; MHL certified; HDMI Type A receptacle shall be used (e.g., 13.9mmx4.45mm); HDCP compliant; HDMI 1.4 compliant; charging shall support 10 watt device charging as outlined in MHL 2.0 specification.
Content sourcing - MHL content is able to be shared from EVO 4/5 to EVO 0; MHL content sourced from another system component shall be able to play simultaneously on both system components without any A/V sync issues. HDMI
HDMI 1.4 - version 1.4 specification compliant; HDMI certified; type A receptacle shall be used (e.g., 13.9mmx4.45mm); HDCP compliant.
Content sourcing - HDMI content is able to be shared from EVO 4/5 to EVO 0; HDMI content sourced EVO 4/5 to EVO 0 is able to play simultaneously on both system components without any A/V sync issues.
SDXC (exFAT) - SDXC supports exFAT, NTFS, and FAT32 file systems; uses Standard SD Card receptacle (e.g., 32mm x 24mm); supports read and write as outlined in the SDXC specification; supports a variety of file formats; supports up to a 512 GB SDXC card.
SDXC Content sourcing - SD content can be shared from EVO 4/5 to EVO 0; SD content sourced shared from EVO 4/5 to EVO 0 is able to play simultaneously on both system components without any A/V sync issues.
Receptacle - output receptacle shall use 3.5mm TRRS phone connector; TRRS CTIA/AHJ standard compliant; contains a normally closed switch contact.
Audio output control - wired headphone audio output will have a volume control on the monitor display; wired headphone audio volume output shall be controlled by the remote control function and on screen display; wired Headphone audio volume output shall be controllable via an in-context audio selection in the player software, invoked by a "menu command"; shall support for apple in-line volume control enabled headphones. Example headphones are Klipsch R6i in-Ear Headphones; wired headphone audio output volume shall default to factory setting on any condition of a power cycle.
Can support 98 channel FM frequency, Channel resolution is 200KHz; starting at 88.3MHz; ending at 107.7MHz.
Antenna shall route out of monitor assembly and be removable from the system component with VHC approved connector.
FM antenna can be included with the system component but is not necessary.
Functionality - shall be configured in firmware to be enabled and disabled on the system component according to system profiles; FM transmitter settings shall be available in a settings menu on the home screen; enabling and disabling the feature functionality shall be performed from the settings menu as well as an in-context audio selection in the player software, invoked by a "menu command"; changing FM frequency shall be performed from the settings menu as well as an in-context audio selection in the player software, invoked by a "menu command"; a hidden menu can be used to adjust the FM transmitter signal strength.
Bluetooth General Functionality - Bluetooth shall meet Specification v2.1 + EDR at a minimum; Bluetooth settings shall be available in a settings menu on the home screen; enabling and disabling the feature functionality shall be performed from the settings menu as well as an in-context selection in the player software, invoked by a "menu command"; pairing Devices to the system shall be performed from the settings menu; Bluetooth connectivity shall work as a master device as outlined in the Bluetooth specification; Bluetooth connectivity shall also work as a slave device as outlined in the Bluetooth specification; feature shall be configured in firmware to be enabled and disabled on the system component according to system profiles.
Bluetooth Advanced Audio Distribution profile (A2DP)
Bluetooth connectivity shall support stereo audio streaming to Bluetooth enabled devices via A2DP; Audio volume once paired shall default to 40dB +- 3dB @ 1 kHz as measured at the drivers of headphones; Volume controls shall default to Bluetooth while Bluetooth is active; Volume changes made to any other audio output shall have no effect on the Bluetooth volume; Enabling wired headphones shall not disable Bluetooth A2DP; Enabling Bluetooth A2DP shall not disable wired headphones; Enabling IR headphones shall not disable Bluetooth A2DP; Enabling Bluetooth A2DP shall not disable IR headphones; Audio shall have the ability to compensate for the encoding/decoding delay and be synced with video within 10 microseconds; APT- X codec will be used to achieve low-latency.
Bluetooth Audio/Video Remote Control yl.5 Profile (AVRCP)
Bluetooth connectivity shall support Audio/Video Remote Control vl.5 Profile (AVRCP). The use of Bluetooth controls shall not disable IR controls. The use of IR controls shall not disable Bluetooth controls. Bluetooth controls shall perform the same functions as an IR remote control. Bluetooth QWERTY keyboard shall be supported anywhere text input in needed in the GUI.
IR Analog Headphones shall be used with the following frequencies configured in firmware on the system component according to system profiles. For example, Master profile (EV04/5): Left Channel 2.3MHz, Right Channel 2.8MHZ. For example, Satellite profile(EVOO): Left Channel 3.2MHz, Right Channel 3.8MHZ.
Enabling wired headphones shall not disable IR headphones. Enabling IR headphones shall not disable wired headphones. Enabling Bluetooth A2DP shall not disable IR headphones. Enabling IR headphones shall not disable Bluetooth A2DP. System component may have no IR headphone volume control. IR receiver may not be obstructed by any part of the system component in direct line of sight viewing position. IR Headphone output shall support the headphones.
NEC protocol shall be used. IR Remote shall have the ability to store two remote profiles on board, one for master system component and one for satellite system component. IR Remote shall be able to switch between remote profiles using Monitor A and Monitor B selection buttons. IR remote buttons shall support long press commands. IR remote output shall support the remote.
Audio Hardwired Output
Adjustable Gain Single Ended and Differential Audio -
Adjustable gain single ended audio shall be supported. Single ended gain shall have an adjustable range of 0V to 4V peak to peak and a resolution of 0.2 V. Setting of adjustable peak to peak voltage shall be configured in firmware.
Adjustable gain differential audio shall be supported. Differential audio gain shall have an adjustable range of 0V to 4V peak to peak and a resolution of 0.2 V. Setting of adjustable peak to peak voltage shall be configured in firmware. Adjustable gain feature shall be configured in firmware to be enabled and disabled on the system component. Adjustable gain feature shall be configured in firmware to choose the audio type (single ended or differential).
Graphical User Interface (GUI) and Qn-Screen Display (QSD)
GUI may have the exact same visual appearance on all system components. GUI operation and layout may be exact same on all monitors. Navigation of GUI shall be handled by D pad arrows, select button, menu button and back button. All functions of the GUI shall be accessible in context specific OSD menus invoked with a menu button.
On screen QWERTY keyboard shall be supported anywhere text input in needed in the GUI. On screen QWERTY keyboard shall be handled by D pad arrows, select button, menu button and back button. From any status location in the GUI a press of the home button shall pause content playback and bring the GUI to the home screen. GUI shall support the following languages in all visible text to the end user: English, French, Spanish, Chinese (Both Traditional and Simplified), Arabic.
OSD may have the exact same visual appearance on all monitors. OSD shall be context specific and only display content relevant to the current state of the device. OSD shall support the following languages in all OSD menus: English, French, Spanish, Chinese (Both Traditional and Simplified), Arabic.
Supported file formats, codecs and containers shall support those outlined below. For example, the infotainment system shall support the following formats: Video: AVI (Xvid, h.264/MPEG-4 Part 10 [AVC], MPEG/2/4); MPG/MPEG; VOB; MP4 Part 14 ( MPEG4, h.264/MPEG-4 Part 10 [AVC]), MKV (h.264, h.264/MPEG-4 Part 10 [AVC], MPEG1/2/4, VC-1), Photo: JPEG, BMP, PNG, Audio: MP3, ACC, WMA, MPEG-1, MPEG-2, AC-3, Subtitle: SRT, SSA, SUB
The infotainment system can also support the following formats: Video: FLV (Sorenson H.263), TS/TP/M2T (MPEG1/2/4, AVC, VC-1), MOV (MPEG4,
h.264/MPEG-4 Part 10), M2TS, WMV9, Photo: TIF/TIFF, GIF, Audio: WAV, Dolby Digital Plus, OGG; MKA; FLAC; DTS, Playlist: M3U.
WLAN functionality shall be Wi-Fi certified. Infotainment device shall have the ability to create and control a unique WLAN network with a unique SSID (Access Point Mode; AP mode). WLAN SSID shall broadcast and be able to be joined by devices with supported network and encryption standards. Infotainment device can work in only one mode at a time (AP, Client Mode). Infotainment device shall have the ability to switch between AP mode and Client mode by the end user via the settings menu. Client mode shall be activated or deactivated by a toggle or radio button in the wireless section of the settings.
WLAN network shall assign internet protocol addresses (IP address) according to IPv4 standard via a DHCP server. WLAN shall be able to connect and manage Wi-Fi capable devices while in AP mode without limitation to how many. WLAN will deny access to the AP once 10 Wi-Fi capable devices have successfully connected. If access is denied WLAN shall alert devices trying to connect to the AP after it has meet its limit with clear language indicating the limit has been meet. WLAN network shall operate simultaneously in dual band mode in the 2.4 GHz and 5 GHz frequency band. WLAN and Wifi Direct (Miracast) shall be Real time Simultaneous dual band.
Concurrent WiFi Direct and Access Point Services. Example configuration: WLAN SSID shall be configured in firmware on the system component. All WLAN AP settings shall be configured in firmware on the system component. WLAN AP settings shall have the ability to be managed via a web interface.
Encryption: Supported Encryption types: WLAN may support network access via 64-bit WEP. WLAN may support network access via 128-bit WEP. WLAN shall support network access via WPA-PSK. WLAN shall support network access via WPA2-PSK. General Encryption features: Encryption shall be configured in firmware. Encryption password shall be configurable by the end user via the settings menu. WLAN shall maintain a log of all previously authenticated Wi-Fi capable devices by main access control address (MAC) and allow reconnection of these devices without the need for re- authentication .
Networking standards: Shall support IEEE 802.1 ln-2009. Shall support IEEE 802.1 lg-2003. Shall support IPv4. Shall support IPv6.
Data Rate: WLAN network shall have a minimum optimal data rate (Herby:
MODR) suitable to stream up to 2 high definition video streams and receive commands from 2 ip-remotes in all frequency bands supported. Wireless network data rates shall be support desired use cases.
Coverage: WLAN coverage in all supported frequency bands to reach all devices inside the vehicle. Network utilities: WLAN shall support Wi-Fi Multimedia (WMM). WLAN shall support Quality of Service Utility (QoS). Infotainment network will not block UPnP, DLNA, and Multicast.
Miracast Receiver
Miracast receiver functionality shall be Wi-Fi Alliance certified. Miracast functionality shall act as a Miracast receiver (WFD Sink) as specified in Wi-Fi Display Technical Specification Version 1.1. Miracast receiver functionality shall be HDCP 2.1 compliant.
General features: Miracast shall support both Audio and Video transmission.
Miracast shall be configured in firmware on the system component. Miracast shall be a source input represented and selectable in all source input locations in the GUI. Miracast functionality shall not disrupt the status of any other device feature unless otherwise stated. Miracast shall perform the exact same regardless the mode the WLAN feature is in (AP or Client mode). WLAN and (Miracast) shall be Real time Simultaneous dual band.
Concurrent Access Point Services. Miracast Content sourcing: Miracast content shall be able to be sourced between system components. Miracast content sourced from another system component shall be able to play simultaneously on both system
components without any A/V sync issues.
Multicast General features: Multicast shall support a one-to-many network assisted distribution method. Multicast may perform its group communication using RTSP, RTP, RTCP, + Unicast. Multicast may perform its group communication using IP multicasting. Multicast functionality shall not stream protected content without the required Digital Rights Management (DRM) and content protection for said content. Multicast content shall be restricted to displaying only the content that is being played on the system component the stream is originating from. Multicast shall function the exact same regardless the mode the WLAN feature is in (AP or Client mode). Multicast shall always be enabled and streaming compatible content being played on multicast enabled system component to the available group. Multicast stream shall use a file format and codec that is universally playable from all iOS and Android devices. Multicast streaming shall be accessible from co developed applications for iOS and Android devices.
Multicast Content sourcing: Multicast content shall be able to be sourced by up to 2 devices connected to the active network the system component is connected to. All Multicast content streamed on compatible devices shall be able to play simultaneously without any A/V sync issues. Device-to-device latency shall be Xms maximum. All Multicast content streamed on compatible devices shall be able to play simultaneously without any A/V sync issues among all devices streaming the content. Device-to-device latency shall be Xms maximum.
Monitor sharing makes content being displayed on one system component available to another. Monitor sharing does this by displaying all content being rendered on the source system component to the screen of a connected system component through a wired connection, for example.
Full Monitor Sharing
Full Monitor Sharing mode shall be configured in firmware on the system component. Only content which is being actively viewed on the source system component shall be shared to the other system component. Content being sourced from one source to another shall have no latency in the Video and Audio feed. Device to Device Latency shall be Xms maximum. If content is unavailable for streaming the "monitor sharing" source shall be greyed out and not selectable on the home screen. If a stream becomes unavailable during playback a screen informing the user of the error shall be displayed for 15 seconds then return to the home screen.
Auxiliary Monitor Control
Auxiliary monitor control enables an equipped system component to extend its feature set to an extension mode system component. System components which control extension monitors shall have enough resources to comfortably control two system components user experience and have resources to spare. Equipped system components referred in this section as "Master."
Master shall power up automatically after switched power is applied. Control of both system components shall be identical, independent and controlled by Masters. All Masters equipped and configured I/O shall be available to both system components. Masters shall update attached extension mode firmware via GMSL de-serializer low level line during update procedure. The UX/UI of both system components shall be exactly the same.
Sources which are independent in nature (e.g. HDMI, DVD, etc.) may be limited to single input source. E.g., Master is equipped with HDMI and extension is not, only one HDMI source is available to be sourced from both system components. Sources which are not independent in nature (e.g. USB, SD, etc.) shall not be limited to single input source. E.g., Master is equipped with USB and extension is not. Multiple movies stored on the USB device shall be available to play independently on Master and extension.
Master shall interpret commands sent via the low level GMSL communication and execute actions. E.g., Extension is equipped with IR receiver for remote control commands. Any commands are to be passed to Master for execution of extension UX/UI. DLNA
System components with DLNA enabled shall be DLNA certified.
Digital Media Renderer - A digital media renderer is a device used in the DLNA protocol as a content sink. Renderers are sinks that can play music, videos and pictures sent to it from a media controller. A renderer is not able to browse for media on network media servers. A system component shall be certified as a DLNA renderer. DLNA renderer shall be accessible from the home screen as a source (UI dependency). DLNA renderer shall be configured in firmware on the system component.
Referring now to FIGS. 1 and 2 and the discussion above, it can be seen that the Master (e.g., EVO 4 or 5) can receive a variety of content from a variety of sources.
Moreover, the Master can distribute this content to a variety of destinations. For example, by virtue of its I O connectivity, the Master can receive audio/video content via its USB port and HDMI/HML port. The Master can also receive audio/video content from an SD card, DVD or WiFi connection. This content can then be stored at the Master and/or distributed to other electronic components. This distribution may occur via a wired connection (e.g., GSML cable in FIG. 2) or wirelessly. Content may be transferred in a high-speed, high definition digital media manner. For example, as shown in FIG. 2, content may be wirelessly provided to mobile devices 1 and 2 (e.g., smartphones, tablets, etc.). The Master may provide content to one or both of the mobile devices 1 and 2. This content may be provided wirelessly,
independently and/or simultaneously. Similarly, the Satellite may provide content to one or both of the mobile devices 1 and 2. This content may be provided wirelessly, independently and/or simultaneously. In other words, the infotainment system according to an exemplary embodiment of the present invention has the ability to share multiple content streams to any screen in the vehicle. The infotainment system according to an exemplary embodiment of the present invention can integrate with vehicle built-in screens as well as tablets and smartphones. Moreover, by using the infotainment system according to an exemplary embodiment of the present invention - content from one device (e.g., Mobile device 1) can be shared with another device (e.g., Mobile device 2) thru the Master. In this way, the Mater functions as an access point or a hub, for example.
For example, the mobile device 1 and the Master may share content bi-directionally thru DLNA. Further, the Master may Miracast content from the mobile device 2. Further, the mobile devices 1 and 2 may have an app that enables them to control all functionality of the Master. This control may be done via Bluetooth, for example. In addition, the mobile devices 1 and 2 may be physically wired to the Master to display selected content on the Master's screen. That selected content may also be mirrored to the Satellite's screen. Further, the Master may access both live TV and recorded home cable/satellite TV and stream this to the mobile devices 1 and 2 as well as the Satellite thru an in-car WiFi network, for example. The GUI on the Master's screen may be used to bring content into the vehicle from the home (e.g., via a WiFi connection), to set up screen monitoring and/or to set up content streaming. For example, via the GUI, a user may select content from the SD Card and share this content to the Satellite. Further, via the GUI, a user may enter a playback mode to watch something playing on the Master on the mobile device, or make this content play on more than one electronic device.
FIG. 3 illustrates a wiring diagram of a system according to an exemplary embodiment of the present invention. In FIG. 3, Monitor A may be the Master device and Monitor B may be the Satellite device; however, the present invention is not limited thereto. At least one of the coax cables may be the GSML cable, for example.
FIG. 4 is a circuit diagram of a satellite device according to an exemplary embodiment of the present invention. The satellite device may include the circuit elements in Table 4 to implement the features described above therefor.
FIG. 5 is a circuit diagram of a master device according to an exemplary embodiment of the present invention. The master device may include the circuit elements in Table 5 to implement the features described above therefor.
TW9900 Y/C Video CVBS
NT5CC128M16IP-DII DDR 3
EMMC08G-W100-A06 eMMC 8Gb
WL1837MOD Wifi & BT Module
M0516 MCU
SGTL5000 Audio Codec
TPA6132 AUDIO AMP headphone 2
SN74CBTLV3257PWR Low Voltage
HA5266 Multiplexer/Demultiplexer
MP3305 LED BACKLIGHT
InnoLux ZJ080NA-08A TFT-LCD 8" Panel
MAX9277 Serializers
MP62551 MHL 2.0 Charger 1A
IT6802E HDMI PO
SLGC55544 USB IC
Although the present invention has been shown and described with reference to exemplary embodiments thereof, it is understood by those of ordinary skill in the art that various changes in form and detail can be made thereto without departing from the spirit and scope of the present invention as hereinafter claimed.
1. A rear seat entertainment system, comprising:
a first access point, wherein the first access point includes a first display screen and a plurality of input/output ports, and wherein the first access point is included in a first housing; and
a second housing separate from the first housing, wherein the second housing includes a second display screen,
wherein the first access point is configured to display first content on the first display screen and stream the first content displayed on the first display screen to the second housing so that the first content is simultaneously displayed on the first and second display screens, and
wherein the first access point is further configured to receive second content from a first mobile device, display the second content on the first display screen and stream the second content displayed on the first display screen to the second housing so that the second content is simultaneously displayed on the first and second display screens.
2. The rear seat entertainment system of claim 1, wherein the first and second housings are each configured to be disposed inside a vehicle seat headrest.
3. The rear seat entertainment system of claim 1, wherein the first and second housings are each configured to be mounted to a vehicle seat.
4. The rear seat entertainment system of claim 1, wherein the plurality of input/output ports include a high-definition multimedia interface (HDMI) port, a universal serial bus (USB) port, an analog audio output port and a secure digital (SD) card port.
5. The rear seat entertainment system of claim 1, wherein the first access point further includes a digital video disc (DVD) player.
6. The rear seat entertainment system of claim 1, further comprising an infrared remote control.
7. The rear seat entertainment system of claim 1, wherein the first access point is further configured to stream the first content displayed on the first display screen to the first mobile device so that the first content is simultaneously displayed on the first display screen, and a third display screen of the first mobile device.
8. The rear seat entertainment system of claim 7, wherein the first access point is further configured to stream the first content displayed on the first display screen to a second mobile device so that the first content is simultaneously displayed on the first display screen, the third display screen of the first mobile device, and a fourth display screen of the second mobile device.
9. The rear seat entertainment system of claim 1, wherein the first mobile device is a smartphone or a tablet.
10. The rear seat entertainment system of claim 1, wherein the second housing includes a second access point, wherein the second access point is configured to steam third content to a second mobile device so that the third content is displayed on a third display screen of the second mobile device.
11. A vehicle entertainment system, comprising:
a master device, the master device including a first display screen and a plurality of input/output ports; and
a first satellite device, the first satellite device including a second display screen, wherein the master device is configured to receive a hardwired connection via one of the plurality of input/output ports from a first portable device, receive first video content from the first portable device through the hardwired connection, display the first video content on the first display screen and steam the first video content to the second display screen, and
wherein the master device is further configured to wirelessly stream the first video content to a second mobile device.
12. The vehicle entertainment system of claim 11, wherein the master device and the satellite device are each configured to be disposed inside a vehicle seat headrest.
13. The vehicle entertainment system of claim 11, wherein the master device and the first satellite device are each configured to be mounted to a vehicle seat.
14. The vehicle entertainment system of claim 11, wherein the master device is further configured to receive second video content via a WiFi connection and wirelessly stream the second video content to the first mobile device or the second mobile device.
15. The vehicle entertainment system of claim 11, wherein content streaming operations of the master device are controllable with the first or second mobile devices.
16. The vehicle entertainment system of claim 11, wherein the master device is configured to establish a dedicated in-car wireless network.
17. The vehicle entertainment system of claim 11, wherein at least one of the first mobile device and the second mobile device is a smartphone or a tablet.
18. The vehicle entertainment system of claim 11, wherein the master device further includes a plurality of input/output ports, wherein the plurality of input/output ports include a high-definition multimedia interface (HDMI) port, a universal serial bus (USB) port, an analog audio output port and a secure digital (SD) card port.
19. The vehicle entertainment system of claim 11, wherein the master device further includes a digital video disc (DVD) player.
20. The vehicle entertainment system of claim 11, further comprising a second satellite device configured to play video content independent of video content played on the first satellite device or the master device.
PCT/US2016/069494 2015-12-30 2016-12-30 Interchangeable rear seat infotainment system WO2017117531A1 (en)
US201562272997P true 2015-12-30 2015-12-30
US62/272,997 2015-12-30
US15/395,350 2016-12-30
US15/395,350 US10063904B2 (en) 2015-12-30 2016-12-30 Interchangeable rear seat infotainment system
WO2017117531A1 true WO2017117531A1 (en) 2017-07-06
ID=59225408
PCT/US2016/069494 WO2017117531A1 (en) 2015-12-30 2016-12-30 Interchangeable rear seat infotainment system
US (2) US10063904B2 (en)
WO (1) WO2017117531A1 (en)
US20100257475A1 (en) * 2009-04-07 2010-10-07 Qualcomm Incorporated System and method for providing multiple user interfaces
US20130298172A1 (en) * 2002-10-28 2013-11-07 Chung Lung Chang Mobile video system
US20140237517A1 (en) * 2006-01-04 2014-08-21 Voxx International Corporation Data distribution unit for vehicle entertainment system
US20140237518A1 (en) * 2010-10-08 2014-08-21 Calvin Liu In-vehicle display for audio-video distribution
US20040045038A1 (en) 2002-08-29 2004-03-04 Duff John F. System and method for the synchronized activation of external devices in association with video programs
JP2008502050A (en) * 2004-05-27 2008-01-24 タレス アビオニクス インコーポレイテッド System and method for loading content in the in-flight entertainment system
US20100186051A1 (en) * 2005-05-17 2010-07-22 Vondoenhoff Roger C Wireless transmission of information between seats in a mobile platform using magnetic resonance energy
US20070106771A1 (en) * 2005-11-10 2007-05-10 International Business Machines Corporation Reconciliation of independently updated distributed data
JP2007274019A (en) * 2006-03-30 2007-10-18 Matsushita Electric Ind Co Ltd Digital information distributing system and method thereof
US20080016081A1 (en) * 2006-07-14 2008-01-17 Anthology Solutions, Inc. System and method for automatic digital library creation
US8176363B2 (en) * 2008-12-08 2012-05-08 International Business Machines Corporation Efficient method and apparatus for keeping track of in flight data in a dual node storage controller
DE102009019753A1 (en) * 2009-05-02 2010-11-04 Daimler Ag Method and arrangement for data communication between a service provider and a vehicle
JP5750296B2 (en) * 2011-04-15 2015-07-15 アルパイン株式会社 Vehicle display apparatus
JP5717601B2 (en) * 2011-09-30 2015-05-13 アルパイン株式会社 Operation control device and operation control method of an external device connected to the vehicle-mounted apparatus
JP6057504B2 (en) * 2011-10-12 2017-01-11 アルパイン株式会社 Electronic device, an output control method and output control program
JP5396458B2 (en) * 2011-12-06 2014-01-22 本田技研工業株式会社 Output control apparatus of the in-vehicle image display device
JP5965921B2 (en) * 2011-12-27 2016-08-10 パイオニア株式会社 The information processing apparatus, a display device, information processing method and information processing program
US9300736B2 (en) * 2012-09-13 2016-03-29 Tencent Technology (Shenzhen) Company Limited Display control method and device
US9462300B2 (en) * 2014-02-21 2016-10-04 Thales Avionics, Inc. Distributed seat centric wireless in-flight entertainment system
JP6305826B2 (en) * 2014-05-13 2018-04-04 アルパイン株式会社 Automotive equipment and equipment authentication method
2016-12-30 WO PCT/US2016/069494 patent/WO2017117531A1/en active Application Filing
2016-12-30 US US15/395,350 patent/US10063904B2/en active Active
2018-08-28 US US16/114,723 patent/US20190090008A1/en active Pending
US20170195708A1 (en) 2017-07-06
US20190090008A1 (en) 2019-03-21
US10063904B2 (en) 2018-08-28
US8320824B2 (en) 2012-11-27 Methods and systems to provide automatic configuration of wireless speakers
JP5259730B2 (en) 2013-08-07 Apparatus and method for moving portable electronic device body media presentation docking station
CN101517554B (en) 2014-07-30 Multi-representation media event handoff
CN104756507B (en) 2017-10-24 Establish a session between the wireless computing device display and audio host vehicle
US8321898B2 (en) 2012-11-27 Content display-playback system, content display-playback method, and recording medium and operation control apparatus used therewith
CN101682434B (en) 2012-11-14 Method and device for continuation of multimedia playback
US10178429B2 (en) 2019-01-08 Aggregated control and presentation of media content from multiple sources
CN104115449B (en) 2017-04-05 A system and method hide the audio controller and connected to the audio network
CN104584061A (en) 2015-04-29 Systems, methods, apparatus, and articles of manufacture to provide a crowd-sourced playlist with guest access
US8725125B2 (en) 2014-05-13 Systems and methods for controlling audio playback on portable devices with vehicle equipment
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