Bell Labs Top 10 Innovations Bell Labs has been at the forefront of technology since 1925. Here are ten Bell Labs innovations that changed the world. Data Networking Since the transmission of the first facsimile in 1925, Bell Labs has explored ways to use networks to deliver more than just voice traffic. In the late 1940s, researchers demonstrated the first long-distance remote operation of a computer by connecting a teletypewriter in New Hampshire with a computer in New York. Throughout the '80s and '90s, Bell Labs worked to increase modem speeds and pioneered the first trial of Digital Subscriber Line (DSL) technology. Today, DSL is becoming a popular way to transform regular copper phone lines into high-speed data connections, giving consumers faster access to the Internet.
The Transistor Developed in 1947, as a replacement for bulky and inefficient vacuum tubes and mechanical relays, the transistor revolutionized the entire electronics world. The transistor sparked a new era of modern technical accomplishments from manned space flight and computers to portable radios and stereos. Today, billions of transistors are manufactured weekly.
Cellular Telephone Technology In a paper in 1947 Bell Labs was the first to propose a cellular network. The primary innovation was the development of a network of small overlapping cell sites supported by a call switching infrastructure that tracks users as they moved through a network and pass their call from one site to another without dropping the connection. Bell Labs installed the first commercial cellular network in Chicago in the 1970s. Since then Bell Labs has continued to innovate in the wireless area, recently creating digital cellular telephone technology offering better sound quality, greater channel capacity, and lower cost.
Solar Cells While there were theories and activities to harness the sun's energy dating back to the 1800s, Bell Labs, in 1954, was the first to actually build a device that used the sun's power to create practical amount of electricity.
Laser The invention of the laser, which stands for "Light Amplification by Stimulated Emission of Radiation," can be dated to 1958 with the publication of a scientific paper by Bell Labs researchers. Lasers launched a new scientific field and opened the door to a multi-billion-dollar industry that includes applications in medicine, communications, and consumer electronics.
Digital Transmission and Switching In 1962, Bell Labs developed the first digitally multiplexed transmission of voice signals. This innovation not only created a more economical, robust and flexible network design for voice traffic, but also laid the groundwork for today's advanced network services such as 911, 800-numbers, call-waiting and caller-ID. In addition, digital networking was the foundation for the convergence of computing and communications.
Communications Satellites Bell Labs was the pioneer in communications satellites. In 1962 it built and successfully launched the first orbiting communications satellite (Telstar I). Telstar was unique in that it had the ability to receive a signal, amplify it, and then transmitted it back to elsewhere on earth . . . which is, after all, the core of what a communications satellite does. This technology allowed telephones calls to be bounced from coast to coast and around the world. The satellite was powered by Bell Labs solar cells and transistors — two other Bell Labs pioneering inventions.
Touch-Tone Telephone First introduced by Bell Labs in 1963, touch-tone replaced rotary dials. This ushered in a new generation of telephone services and capabilities including voice mail and telephone call center applications. In a recent survey of Americans, touch-tone dialing was named the most important business communications advance of the last century.
Unix Operating System and C Language The Unix operating system and the C programming language, closely intertwined in both origin and impact, were created at Bell Labs between 1969 and 1972. Unix made large-scale networking of diverse computing systems — and the Internet — practical. The C language brought an unprecedented combination of efficiency and expressiveness to programming. Both made computing more "portable." Today, Unix is the operating system of most large Internet servers, as well as business and university systems; C and its descendants are the most widely used programming languages in the world.
Digital Signal Processor (DSP) Bell Labs built the first single-chip digital signal processor in 1979. The DSP is the engine of today's multimedia revolution. DSP technology is in multimedia PCs and in the modems that connect computers to the Internet. It's in wireless phones, answering machines, and voice-mail; it's in video games talking toys, DVD players and digital cameras. And DSP chips are at the heart of a growing number of systems that talk to you in synthesized speech and recognize your spoken responses. July 1, 2013, 12:25 AM Huawei's Best-Kept Secret: an Army of Engineers By Juro Osawa Huawei Technologies Co. has made a name supplying network equipment to clients world-wide, but the Chinese company's emphasis on research and development over manufacturing its own hardware is a lesser-known fact. Huawei has been ramping up its R&D spending in recent years. Last year, the company spent about $4.7 billion, or about 13% of its total group revenue, on R&D. The company actually doesn't do much hardware manufacturing, outsourcing more than half of the work to contract manufacturers. In fact, about half of Huawei's world-wide workforce is in R&D, and the majority of Huawei engineers work on software, not hardware. At Huawei's R&D center in Shanghai, more than 10,000 engineers are working on products that can address problems in various aspects of wireless network technology: How do you increase the capacity of base stations? How can telecom carriers move from third-generation networks to 4G Long Term Evolution networks more easily and at a lower cost? If carriers want to selectively offer a better connection environment to customers who pay extra money, what technology do they need? The research center, located in Shanghai's Pudong district, is a large and extremely long building — half a kilometer long. It takes up a total area of 277,000 square meters. At first glance, it looks very much like a conventional office. But complex drawings and charts pepper spaces between desks as software engineers get down to work. There is a massive cafeteria on the lower ground floor, which is divided into different sections for different types of food. The food there is better than the cafeteria at Huawei's Shenzhen headquarters, one employee said. Juro Osawa/The Wall Street Journal Huawei's Shanghai R&D center. |
Huawei has charted solid earnings to back its spending on research, with net profit up 32% last year. Its recent growth has outpaced western rivals such as Sweden's Ericsson and France's Alcatel-Lucent (ALU.FR -2.68%). In Europe, some telecom carriers have expressed concerns that European equipment suppliers may not be able to keep up with Huawei's R&D investments in coming years, making the Chinese company one of few sources of advanced gear. |