Prof. Willie W. Lu, Ph.D Chief Architect & Chief Inventor Open Wireless Architecture (OWA) and Mobile Cloud IPs Prof. Willie Lu, wwlu@ieee.org User-Centric Mobile Cloud Device - Global Evolution from Mobile Era to Personal Era Please note that nothing set forth in this document may be construed as an admission of law or fact, or as a waiver of any right, remedy or defense that Prof. Willie W. LU may hold, all of which are expressly reserved.
Over $600B Business by Year 2020 WLAN WPAN BWA Cellular User-Centric vs. Carrier-Centric
ARCHITECTURE FOR USER-CENTRIC MOBILE CLOUD DEVICE Prof. Dr. Willie W. LU, Principal Investigator of OWA Mobile Cloud architecture OWA OS: converge & optimize multiple wireless accesses Create an open and universal platform to foster the creation and distribution of a broad range of innovative mobile cloud applications "Open Architecture continues to be the key for future Internet, especially for Wireless", Dr. Vint Cerf in School of Engineering of Stanford University on 02/08/2011. Future Radio Transmission Technology (RTT) including 5G, etc will be operated by Open Wireless Architecture (OWA) discovering, ruling and scheduling different air interfaces for billions of cyber physical system (CPS) devices and mobile devices connecting to the Mobile Cloud wirelessly. Please note that nothing set forth in this document may be construed as an admission of law or fact, or as a waiver of any right, remedy or defense that Prof. Willie W. LU may hold, all of which are expressly reserved.
User-centric instead of Carrier-centric Mobile Cloud INTERNET Optimized Synchronization Open Wireless Networks (OFDM, TDMA, CDMA, etc) AT&T, Verizon, T-Mobile, Sprint Select Optimize OWA MOBILE CLOUD Infrastructure Optimized Wireless Virtual Mobile Server (Mobile Cloud Server) Any computers, Servers, TVs Push Pop Mobile Terminal (Mobile Cloud Client) Open, Simple, Personal Mobile Device, Tablet, Laptop The company holding the OWA flag will become new Intel of the mobile world.
OWA Virtualization OS for Open MM Applications APP 1 APP 2 APP n Driver Driver Open OS- Based Driver OS 1 OS 2 OS n Open Interface-Based OWA Virtualization Layer OWA OS Portable APP-OS Modules User Level System Level Transmission-Specific RTT 1 RTT 2 RTT n Transmission Level OWA-Based Wireless Mobile Terminal Architecture
Open Mobile Applications (Mobile Gaming, Ads, LBS, Videos, etc) Application based on QoS (User - Centric) Personal / Business Networking API Business Networking Secured Mobile DNA Personal Networking General Social Networking API VWM VWM VWM Mobile Relation Manager Unsecured Social Networking Application Layer Classification Service Layer Networking & Service OS Connection-based Services Video (V) Web (W) Text /Message(M) Optimized Wireless Connection based on QoW (User - Centric) Open Wireless Architecture Mobile Cloud client Connection Optimization Open Wireless Architecture Virtualization sub-layer Access Layer OWA OS WLAN WPAN BWA Cellular Classified Relation Networking Optimization Platform in OWA Mobile Cloud Devices
Internal Modules External Modules Software Defined Module (SDM) OWA BIOS Interface & Framework Open Wireless Architecture (OWA) Virtualization Layer System Level Open Operating System (OS) BIOS Host OS Interface Principal OS Virtual Machine Manager Supplemental OS Visitor OS Interface Data/Control OWA Baseband Processing Layer Signals Open Interface Parameters (OIP) OWA Wireless Adaptation & Virtualization Layer Portable Air-Interface Modules (SIM Card) Baseband signals (I/Q) OWA Baseband SoC Low Power, Small Size, High Performance Multiple RTTs Front-End (WLAN, WPAN, BWA, Cellular) OWA integrates various air-interfaces in an open platform low power, high performance
Open Baseband Signal Processing Platform OIP: Open Interface Parameters OCM: Open Computing Machines PE: Processing Elements GP: General Purpose processor SIMD: Single-Instruction Stream Multiple-Data Stream BBM: Baseband Management system GP Core (Controller & DSP) Memory Multi-Tasked SIMD Core PE PE PE PE 1 2 n Memory OWA multi-bands Open Transceiver Open RF Module & Digital Frontend Open RF Interfaces SIMD Core 1 SIMD Core n PHY/MAC Control BUS Bridge Multi-Layer System BUS BBM Accelerator OCM Shared Memory (internal & external) OIP Library Accelerator Open Kernels Peripherals OWA is optimized for integrated platform on Smartphones - both system and transmission.
Wireless Adaptation & Virtualization Sub-Layer OIP Open Baseband Signals OWA Baseband Processing Sub-Layer OIP Generator Virtual Machine Manager Air Interface Principal Signals Supplemental Signals OWA Air-Interface Mapping & Adaptation Air Interface Signals AI Signals AI Signals AI Signals TDMA RTT CDMA RTT OFDMA RTT New RTT OWA is best optimized for advanced Smartphone on power efficiency and integration size portable Air-Interface modules and Mobile Cloud architecture.
Call Processing Management System in Mobile Switching Center, Gateway or Virtual Switch Incoming Mobile Call Voice, Message, Web, Data or Video Connection Table (Conn_Table) Visitor IP Address: x.x.x.x Call_Proc Request (by DSL, CableModen, Ethernet, Fibre, etc.) CDMA/TDMA/OFDM Channel Home IP Address: x.x.x.x Search Conn_Table IP MobileCloud Server (Home IP Address) Virtual Mobile Server (VMS) Communication with Visitor_IP, Sync with VMS Y Is Visitor IP available? OWA VMS Hosting (256K Users) N IP Communication Through Non-IP CDMA/TDMA/OFDM Channel Y Is Non-IP CDMA/TDMA/ OFDM available? N Dial MobileCloud Forward the Call to MobileCloud Server (VMS) OWA OS: How to converge multiple wireless access in one mobile device
Virtual Mobile Server as Mobile Cloud Server Mobile IDs Special Services Management (Location, Emergency, Sensor, Security, etc) INTERNET ADSL Ethernet CableModem Fibre, etc Virtual Mobile Server (Mobile Cloud Server) Home IP Address Mobile Cloud Client Terminal IP /PDM over Wireless Terminal Processing Unit OWA Interface Processing Signal Processing Application Processing Networking Processing Mobile Applications Mobile Social Net Mobile Internet Voice / Video SMS MMS Data Center SDM Center
OWA.inFlight Mobile Notebook When In-Flight Mode All Terrestrial Radio Transceivers Turned OFF (automatically) Device Connected to OWA.onBoard Wireless Router Device Synchronized to Mobile Cloud VMS on Ground Auto Switch to In-Flight Mode Connecting to OWA.onBoard Push to Virtual Mobile Server OWA.inFlight Mobile Device OWA.onBoard RTTs Standard Wireless LAN (WLAN) Modified Wireless LAN (WLAN.Air) Standard Wireless PAN (WPAN) Modified Wireless PAN (WPAN.Air) Connecting to Ground or other Aircraft in Ad-Hoc or Mesh Outside Antennas OWA.onBoard Wireless Router/ Access Point OWA.inFlight Mobile Network onboard Server and OWA.Air Transceiver