This Annual Report contains forward-looking statements within the meaning of Section 27A of the Securities Act of 1933, as amended, and Section 21E of the Securities Exchange Act of 1934, as amended. All statements, other than. The Canadian Forces Housing Agency (CFHA) in Action Table of Contents. Message from the Assistant Deputy Minister (Infrastructure and Environment) The Year in Review from the CFHA’s Chief Executive Officer; Profile. QUALCOMM Incorporated - Annual Report. Item 1. Business. We incorporated in 1. California. In 1. Delaware. We operate and report using a 5. Sunday in September. Our 5. 2- week fiscal years consist of four equal fiscal quarters of 1. Dharmendar Jain is the Group's Chief Finance Officer. He's also the EVP & Head Finance and Supply Chain at Kaya Ltd. With over 22 years of experience in various areas of finance, Dharmendar joined MaKE in April 2013 as the.The financial results for our 5. Both of the fiscal years ended. September 2. 8, 2. September 2. 9, 2. The fiscal year ended. September 3. 0, 2. The mobile communications industry generally recognizes that a company seeking to develop, manufacture and/or sell products that use CDMA technology will require a patent license from us.
CDMA is one of the main technologies currently used in digital wireless communications networks (also known as wireless networks). Based on wireless connections, CDMA and TDMA (Time Division Multiple Access), of which GSM (Global System for Mobile Communications) is the primary commercial form, are the primary digital technologies currently used to transmit a wireless device user’s voice or data over radio waves using a public cellular wireless network. Sales of multimode CDMA and LTE (which stands for Long Term Evolution and is an OFDMA- based standard for cellular wireless communication applications) wireless devices have grown significantly during the past several years. Some of these were contributed to and are being commercialized as industry standards, such as certain audio and video codecs, the advanced WLAN (wireless local area networks, or Wi- Fi) 8. Other technologies widely used by wireless devices that we have developed are not related to any industry standards, such as operating systems, user interfaces, graphics and camera processing functionality, integrated circuit packaging techniques, sensors and sensor fusion algorithms and application processor architectures. Our products principally consist of integrated circuits (also known as chips or chipsets) and system software used in mobile devices and in wireless networks. We also sell other products and services, which include: integrated circuits for use in wired devices, particularly broadband gateway equipment, desktop computers and streaming media players; software products and content enablement services for wireless operators; and products designed for the implementation of small cells. As the largest technology platform in the world, mobile has made peoples’ lives more connected, transforming the way we interact with one another and with the world. Readbag users suggest that Annual%20Report%20%202009%20-%2020010.pdf is worth reading. The file contains 234 page(s) and is free to view, download or print. Reliance Industries Detailed director reports covering Reliance Financial Results and Performance report. 2013 Health Canada annual report. We also greatly appreciate the extensive work effort that was put into this report by our production team: the desktop publishing unit, the translators, editors and concordance experts, and. The scale and pace of innovation in mobile, especially around connectivity and computing capabilities, is impacting industries beyond wireless. As of September 2. G/4. G connections globally (CDMA- based, OFDMA- based and CDMA/OFDMA multimode) representing nearly 4. G/4. G connections are projected to surpass 5 billion globally, with approximately three- quarters of this growth occurring in emerging regions (GSMA Intelligence, November 2. In 2. 01. 0, the number of broadband connections using mobile technology surpassed those using fixed technologies, making mobile networks the primary method of access to the Internet for many people around the world. The impact is further amplified in emerging regions, where 3. G/4. G connections are approximately four times the number of fixed Internet connections (GSMA Intelligence, November 2. WBIS, October 2. 01. Mobile broadband may be the first, and in many cases only, way that people in these regions access the Internet. G/4. G LTE multimode services are being rolled out in China, which we expect will encourage competition and growth, bring the benefits of 3. G/4. G LTE multimode to consumers, encourage consumers to replace 2. G, or second generation, (GSM) and 3. G devices and enable new opportunities for the industry. In 2. 01. 3, nearly 1 billion smartphones shipped globally, representing a year- over- year increase of more than 4. Gartner, September 2. Much of this growth is happening in emerging regions, where smartphones represented 4. Gartner, September 2. Declining costs and the rapid expansion of entry- level smartphones have been and are expected to continue to be key to this growth. This innovation is happening across multiple technology dimensions, including connectivity, application processors, camera, audio, video, location, radio frequencies and sensors. As a result, the smartphone has supplanted in many ways the personal computer as the go- to device for email, web browsing, music, gaming, social networking and more. It is also replacing many traditional consumer electronics items due to its advanced capabilities, including digital cameras, video cameras, Global Positioning System (GPS) units and music players. To meet the challenge resulting from increased demand for data, mobile operators are looking at a variety of methods to improve the performance and capacity of their networks, including acquiring additional spectrum, using more efficient air- interface technologies (derived from the continued evolution of 3. G/4. G and Wi- Fi technologies) and leveraging both licensed and unlicensed spectrum. An additional approach is network densification, in which very small, lower- power base stations, known as small cells, are deployed close to the end user to complement the larger “macro” network. With billions of connected devices projected to be added over the coming years, enhancing the capabilities of the network will be vital to improving its scalability and performance as it enters this new phase of growth. These enhancements are helping to transform industry segments, including the connected home, tablets, automotive, health care and wearables, as companies leverage mobile connectivity and computing technology to create intelligently connected products and services and reach new customers. Through the addition of embedded sensors, connected things are able to collect and send data on their environment, providing users with contextually relevant information and further increasing their utility and value. We refer to this as the Internet of Everything. To meet these requirements, different wireless communications technologies continue to evolve. For over two decades, we have invested and continue to invest heavily in research and development of many of these cellular wireless communication technologies, including CDMA and OFDMA. As a result, we have developed and acquired (and continue to develop and acquire) significant related intellectual property. This intellectual property has been incorporated into the most widely accepted and deployed wireless communications technology standards, and we have licensed it to wireless device and infrastructure manufacturers (more than 2. Most of the cellular wireless technologies can be grouped into three categories. Most of these systems are classified as 2. G technology. Compared to the earlier generations of analog technologies, these digital communications technologies provided for significantly enhanced efficiency within a fixed spectrum, resulting in increased voice capacity. These technologies also enable enhanced services, such as SMS (short message service) texting service, as well as low- speed data services. GSM has evolved to support mobile packet data transmission, such as GPRS (General Packet Radio Service) and EDGE (Enhanced Data Rates for Global Evolution). The transition of wireless devices from 2. G to 3. G/4. G continued around the world with 3. G/4. G connections up 2. Most of the CDMA- based technologies are classified as 3. G technology. We lead the development of CDMA- based technologies. CDMA- based technologies provide vastly improved capacity for voice and low- rate data services as compared to analog technologies and significant improvements over TDMA- based technologies, such as GSM. The following are the CDMA- based technologies and their standards revisions. As these technologies continue to evolve, new features are being defined in their relevant standardization bodies, the 3rd Generation Partnership Project 2 (3. GPP2) for CDMA2. 00. EV- DO and the 3rd Generation Partnership Project (3. GPP) for WCDMA and TD- SCDMA. One example is the 3. GPP releases: Releases 5 and 6 together are called HSPA (High Speed Packet Access). The releases from 7 to 1. HSPA+, indicating that they provide performance improvements over HSPA. We refer to releases 1. HSPA+ Advanced, again indicating improvements beyond the ones that HSPA+ offers. According to GSMA Intelligence estimates as of November 3, 2. CDMA- based connections worldwide, representing approximately 3. As of the fourth quarter of calendar 2. X Advanced and DO Advanced, as well as up to the eighth release of HSPA+, were commercially launched. Most of the OFDMA- based technologies. G technology. We continue to play a significant role in the development of LTE and LTE Advanced, which are the predominant 4. G technologies. LTE has two modes, FDD (frequency division duplex) and TDD (time division duplex), to support paired and unpaired spectrum, respectively, and is being developed by 3. GPP. The principal benefit of LTE is its ability to leverage wide swaths of spectrum (bandwidths of 1. MHz or more). LTE is designed to seamlessly interwork with 3. G through 3. G/4. G multimode devices. Currently, most LTE devices rely on 3. G for voice services across the network, as well as for ubiquitous data services outside the LTE coverage area, and on 4. G for data services inside the coverage area. To date, LTE’s voice solution, Vo. LTE (voice over LTE), has been commercially deployed in only a small number of networks. The name LTE covers releases 8 and 9. Releases 1. 0 and beyond are referred to as LTE Advanced. According to GSMA Intelligence estimates as of November 3, 2. G/4. G multimode connections worldwide, representing approximately 5% of total cellular connections. Carrier aggregation, one of the significant improvements of LTE Advanced, was commercially launched in June 2. Along with carrier aggregation, LTE Advanced brings many more enhancements, including advanced antenna techniques and optimization for small cells. LTE Advanced continues to evolve; release 1.
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