Nokia The Reliable Connecting

The History of Nokia – The roots of Nokia go back to the year 1865 with the establishment of a forest industry enterprise. The roots of Nokia go back to the year 1865 with the establishment of a forest industry enterprise in South-Western Finland by mining engineer Fredrik Idestam. Elsewhere, the year 1898 witnessed the foundation of Finnish Rubber Works Ltd, and in 1912 Finnish Cable Works began operations. Gradually, the ownership of these two companies and Nokia began to shift into hands of just a few owners.

nokiaFinally in 1967 the three companies were merged to form Nokia Corporation. At the beginning of the 1980s, Nokia strengthened its position in the telecommunications and consumer electronics markets through the acquisitions of Mobira, Salora, Televa and Luxor of Sweden. In 1987, Nokia acquired the consumer electronics operations and part of the component business of the German Standard Elektrik Lorenz, as well as the French consumer electronics company Oceanic. In 1987, Nokia also purchased the Swiss cable machinery company Maillefer.

In the late 1980s, Nokia became the largest Scandinavian information technology company through the acquisition of Ericsson’s data systems division. In 1989, Nokia conducted a significant expansion of its cable industry into Continental Europe by acquiring the Dutch cable company NKF.

Since the beginning of the 1990’s, Nokia has concentrated on its core business, telecommunications, by divesting its information technology and basic industry operations.

Year 2005

The Nokia 6630 imaging smartphone has as the first device in the world achieved global GCF 3G WDCMA Certification. The certification was achieved based on the requirements defined by Global Certification Forum (GCF), an independent industry body which provides network compliancy requirements and testing for GSM/WCDMA mobile devices.

SBS Finland’s Kiss FM became the first radio station in the world to begin Visual Radio broadcasts. This unique new concept developed by Nokia offers the listeners the possibility to give feedback and to participate in programs easier than ever before. Nokia introduced a new product for secure mobile contactless payments and ticketing.

The world’s first Near Field Communications (NFC) product for payment and ticketing will be an enhanced version of the already announced Nokia NFC shell for Nokia 3220 phone.
Year 2004

Using Nokia’s CDMA Dual-Stack handset, Nokia demonstrated the industry’s first Mobile IPv6 call at the 3G World Congress Convention and Exhibition in November. The demonstration highlighted real-time streaming video with seamless handoff between two CDMA access networks using Mobile IPv6.

Nokia announced the Nokia NFC (Near Field Communication) shell, the latest step in the development of innovative products for mobile communications, in November. With the Nokia NFC shell on their phone, consumers will be able to easily access a variety of services and conveniently exchange information with a simple touch gesture utilizing NFC technology. In October, Nokia and TeliaSonera Finland successfully conducted the world’s first EDGE-WCDMA 3G packet data handover in a commercial network.

Achieving a first for the Asia-Pacific region, Nokia, MediaCorp Technologies, M1 and the Media Development Authority of Singapore jointly showcased a live end-to-end mobile phone TV broadcast over a DVB-H (Digital Video Broadcast – Handheld) network at the Nokia Connection event in Singapore.

Nokia and Texas Instruments Incorporated introduced the first pre-integrated and validated Series 60 Reference Implementation based on TI’s OMAP(TM) processor-powered reference design in February. The Reference Implementation is available immediately to Series 60 licensees.
Year 2003

Nokia announced that the world’s first cdma2000? 1xEV-DV high-speed packet data phone call was completed at Nokia’s CDMA product creation center in San Diego. The call, achieving a peak data rate of 3.09 Mbps, was made between a test set based on a commercially available Nokia 2285 handset upgraded with a Nokia 1xEV-DV chipset and a Racal Instruments, Wireless Solutions Group, 1xEV-DV basestation emulator. This chipset is the world’s first to support complete 1xEV-DV Release C functionality.
Year 2002

Nokia succesfully made the first 3G WCDMA packet data calls between its commercial network infrastructure and terminals in its laboratories in Finland. The Nokia 3G WCDMA network and terminal used were based on the commercial standard level known as 3GPP (3rd Generation Partnership Project) Release 99 June 2001 version. This was the first time that packet data has been transmitted end-to-end on a commercial system based on the above mentioned commercial standard.
Year 2001

Nokia introduces the industry first multimedia messaging solution, the Nokia Artuse (TM) MMS (Multimedia Messaging Service) Center, a high-capacity platform for the next wave of mobile messaging. The solution enables operators to introduce multimedia messaging services combining new rich content, such as audio and video clips, photographs and images with the traditional text messaging. Nokia and the Finnish operator Sonera conducted the world’s first Wireless LAN roaming based on GSM technology. Sonera is making use of Nokia technology that allows mobile operators to offer broadband wireless Internet services in Wireless LAN access zones.
Year 2000

Nokia introduced the world’s first IPv6-enabled end-to-end GPRS network. Operators can use Nokia GPRS networks to provide their customers with new types of services that bring benefits offered by IPv6, such as global reachability and end-to-end security.

Nokia introduced the world’s first TETRA WAP browser which brings powerful WAP applications to TETRA professional mobile radio networks. WAP over TETRA provides a new method of data communication for professionals. It enables real-time direct access to various customer and technical databases in only a few seconds. Nokia has combined the versatility of WAP with the power of TETRA to introduce the world’s first WAP services for digital professional mobile radio users. The new WAP services have been developed in co-operation with Finnish companies Helsinki Energy and Tekla Corporation.

Nokia and Sonera have completed tests that bring roaming capabilities for IP traffic between GPRS networks for the first time in the world. Nokia and Scandinavian Airlines Systems announced a partnership to bring Nokia mobile phones to the selection of goods sold on all international SAS flights. This is the first time mobile phones will be sold on airplanes.

Nokia launched the Nokia LiveSite platform, the world’s first WCDMA implementation which is compatible with the latest 3GPP standards for third generation networks.

Nokia successfully carried out the world’s first WAP service over a trial WCDMA system. The tests were completed in Beijing, China, where Chinese language WAP services were transmitted via the WCDMA system and radio network.

Nokia, a founding member of the SyncML initiative, announced that it had successfully demonstrated the world’s first wireless Internet synchronization using the SyncL protocol. Nokia is the first vendor in the world to bring full mobile IP packet data functionalities into TETRA networks. Nokia TETRA IP significantly enhances access to WAP services and more efficient WAP service development is possible with new TETRA IP functionalities.

Nokia announces world’s first GPRS roaming between M1 Singapore and Cable and Wireless HKT Mobile Services, Hong Kong. This is the first announcement of its kind in the world for GPRS inter-operator roaming.
Year 1999

Nokia introduced the world’s first high-speed data terminal for wireless networks: the Nokia Card Phone 2.0 brings about a four-fold increase in data transmission speed. Nokia completed the world’s first WCDMA (Wideband Code Division Multiple Access) phone call through a public switched telephone network.

Nokia announced the world’s first media phone that is based on the Wireless Application Protocol (WAP) in Mobile Media Mode. The Nokia 7110 dual band GSM 900/1800 media phone has been designed to enable easy access to Internet content from a mobile phone.
Year 1998

Nokia delivered world’s first ETSI standard ADSL and IP network to Telecom New Zealand, thereby marking the start of commercial delivery of broadband data services using the ADSL network.

The Nokia 9110 Communicator, the first hand-held mobile device supporting wireless imagining. The Nokia 5100 series, the first mobile phones with user-changeable covers.

The world’s smallest NMT 450 phone, the Nokia 650, sets a new benchmark for NMT 450 technology. As a special additional feature and first in the market, the Nokia 650 has a built-in FM radio. The Nokia LPS-1 loopset, an easy to use device for smooth interaction between a hearing aid and a digital mobile phone. It the first product of its kind in the world.

A revolutionary new solution, the Nokia GSM Intranet Office, giving employees total mobility in the workplace via the company intranet. The world’s first GSM Intranet Office combining GSM with office IP telephony.

The Nokia Intelligent Frequency Hopping (IFH) solution, part of the Nokia Soft Capacity concept, the first solution of its kind in today’s GSM markets

The world’s first live High-Speed Circuit Switched Data (HSCSD) network.
Year 1997

The world’s first four TETRA networks were delivered by Nokia. A new handset for the NMT 450 standard, the Nokia 540, which is the world’s first NMT phone with Navi Key.

The next generation GSM product family, the Nokia 6100 series. New standards for operating times and a set of innovative industry-first features, including audio quality and an entirely new Profile function which enables users to adjust the phone settings according to various situations.

Next generation half-rate handportable for the digital PDC standard in Japan. With this introduction, Nokia is the first company to demonstrate an entirely new, innovative feature for PDC handsets, which enables calling by voice activation.

The world’s first GSM dual band base station, the Nokia GSM 900/1800 Dual Band BTS. This provides the possibility to integrate GSM 1800 transceivers (TRXs) into an existing GSM 900 Base station (BTS).

The first call on the Helsinki City Energy Company’s digital TETRA network was made. The network, called officially HelenNet by Helsinki City Energy Company, is the world’s first network taken into operative use, according to the TETRA standard.

The Nokia 3810, the first mobile phone specially designed for Asian consumers.First-ever interactive telematic wireless health care tool for supporting the treatment of chronic diseases, e.g., diabetes.

By introducing a new WLL solution, Easyway Access, Nokia became the first supplier on the market to link GSM radio access to a wireline local exchange. The world’s first digital satellite receiver with CommoTn Interface, the DVB 9600 S. The first manufacturer to provide a complete Smart Messaging solution, a new direct Internet access service technology specially designed for mobile phone users, to network operators and service providers.

Nokia launched its Mediamaster DVB 9200S Free-To-Air, and was the first manufacturer to launch a digital satellite receiver in the UK. A new GSM handportable, the Nokia 3110, with the Navi-Key menu system that allows fast, one-button access to the functions of the phone. A new mobile phone offering a new innovative power management solution, the Nokia 1611 with a unique option, the solar cell battery.
Year 1996

he first digital multimedia terminal in the world, the Nokia Mediamaster. The Nokia 8100 product family, the first with an innovative, ergonomically comfortable design. Chinese character short messaging service and Chinese user interface were launched in the Nokia 8110 mobile phone. Nokia was the first manufacturer to offer both simplified and traditional character sets in the same phone. The Nokia 2160, the first available dual mode AMPS/TDMA phone. The Nokia 9000 Communicator, the world’s first all-in-one mobile communications tool introduced at the CeBIT exhibition.
Year 1995

The world’s first integrated wireless payphone. The new joint venture, Beijing Nokia Mobile Telecommunications Ltd., was established: the first factory to manufacture large scale GSM systems and equipment in China. Nokia PrimeSite, the world’s smallest base station for GSM/DCS cellular mobile networks.
Year 1994

The first offical GSM call in the People4s Republic of China made on a Nokia phone on Beijing TA4s network, supplied by Nokia. The first European manufacturer to start selling mobile phones in Japan. The world’s first Data Communications Server (DaCS), providing fully digital, fast access to corporate LANs. The world’s first digital cellular data products, including the Nokia PC Card and the Nokia Cellular Data Card. Inmarsat made the world’s first satellite telephone call with Nokia’s pocket-size GSM handset. The first manufacturer to launch series of handportable phones for all digital standards (GSM, TDMA, PCN, Japan Digital). The Nokia 2100 was the world’s smallest and lightest family of digital products.
Year 1993

The first Personal Communications Network based on GSM 1800 standard delivered by Nokia. The world’s first SMSC (Short Message Service Centre) taken into commercial use in Europolitan’s Nokia network. The world’s first credit card size cellular modem card developed with AT&T Paradyne.
Year 1992

The Nokia 1011, the first digital handportable phone for GSM networks. The Nokia 100 series, the first family of handportale phones for all analog networks.
Year 1991

The first manufacturer to have a large-scale production-ready GSM phone. The world’s first genuine GSM call made using Radiolinja’s network, supplied by Nokia.
Year 1990

The world’s first Radio Data System (RDS) and Mobile Search (MBS) text pagers.
Year 1989

The world’s first Actionet trunking mobile radio network was brought into operation. The world’s first fast-poll 14,400 bps (bits-per-second) modem.
Year 1988

The world’s first ISDN (Integrated Services Digital Network) exchange conforming to CCITT standards, manufactured by Nokia, was brought into use in Finland.
Year 1987

The world’s first NMT handportable, the Nokia Cityman.
Year 1984

The world’s first portable NMT car telephone, the Nokia Talkman.
Year 1982

Europe’s first digital telephone exchange, the DX 200.
Year 1981

The world’s first international cellular mobile telephone network NMT opened in Scandinavia with Nokia introducing the first car phones for the network.
Year 1969

Nokia introduced the world’s first 30-channel PCM (Pulse Code Modulation) transmission equipment conforming to the standards of CCITT (Consultative Committee on International Telegraphy and Telephony).

Samsung Galaxy S II (I9100)

 

Samsung Galaxy S II (I9100)

Price: Rs 32,890

competition in the market from the HTC Sensation to the LG Optimus 2X.

What makes the Galaxy S II  more tempting in India is the price-point;

the S2 is delightfully priced lower than the international pricing.

With an MRP of Rs 32,890, the S II should soon settle around the 30K mark in the market.

Key Specifications and Features

Android v2.3.3 with TouchWiz 4.0
4.3-inch Super AMOLED Plus display
Super-slim body, weighs just 116g
1.2GHz Dual Core Processor
1GB of RAM
8MP Camera with autofocus
1080p video recording@30fps
HDMI port
USB 2.0 (MHL), USB on-the-go
NFC (Near Field Communication) ready

+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

Specifications
Network: Quad Band GSM+ 3G; Processor: ARM Cortex A9 1.2GHz with Orion chipset andMali 400MP GPU; Display: 4.3-inch Super AMOLED Plus with 480 x 800 resolution; Memory: 16GB internal+ up to 32GB microSD card; Camera: 8MP with 1080p (30fps) video; OS: Android 2.3.3 with TouchWiz 4.0 UI;Battery: 1650 Ma

 

Ratings
Features: 8.5
Performance: 8.5
Build: 6
Value: 7.25
Overall: 8

 

Contact: Samsung India
Phone: 30308282
Email: support.india@samsung.com

Source:

http://www.thinkdigit.com/Mobiles-PDAs/Samsung-Galaxy-S-II–Breathtakingly-brilliant_6920/3.html

Nokia First Windows phone due 2011

Source:http://in.news.yahoo.com/nokia-says-first-windows-phone-due-2011-134630417.html

Nokia will start to sell its first Windows Phone model this year, the company said on 20-10-2011,Thursday.

Finnish broadcaster MTV3 earlier reported on its website the phonemaker will have only one Windows-based model this year, citing Chief Financial Officer Timo Ihamuotila, but later replaced the story.

In its replacement report, MTV3 quotes Ihamuotila as saying the fact there will be an initial handset does not mean there will be only one model this year.

A Nokia spokesman said the original report was wrong.

This month, chief executive Stephen Elop indicated Nokia would launch several Windows devices this quarter.

Secret mobile phone code cracked

Secret mobile phone code cracked

Computer hackers this week said they had cracked and published the secret code that protects 80 per cent of the world’s mobile phones. The move will leave more than 3bn people vulnerable to having their calls intercepted, and could force mobile phone operators into a costly upgrade of their networks.

Karsten Nohl, a German encryption expert, said he had organised the hack to demonstrate the weaknesses of the security measures protecting the global system for mobile communication (GSM) and to push mobile operators to improve their systems.

“This shows that existing GSM security is inadequate,” Mr Nohl told an audience of about 600 people at the Chaos Communication Congress in Berlin, a four-day conference of computer hackers.

“We have given up hope that network operators will move to improve security on their own, but we are hoping that with this added attention, there will be increased demand from customers for them to do this,” he told the Financial Times.

“This vulnerability should have been fixed 15 years ago. People should now try it out at home and see how vulnerable their calls are.”

Mr Nohl was due to run a practical demonstration of the code book at the conference on Wednesday, but has postponed it while he takes advice from lawyers on whether the exercise would be legal. However, the code is already being widely circulated on the internet.

Mr Nohl, a widely consulted cryptography expert with a doctorate in computer engineering from the University of Virginia, waged a similar campaign this year which caused the DECT Forum, a standards group based in Bern, to upgrade the security algorithm for 800m cordless home phones.

The hacked GSM code could compromise more than 3bn people in 212 countries. It does not affect 3G phone calls, however, which are protected by a different security code.

The GSM Association, the industry body for mobile phone operators, which devised the A5/1 encryption algorithm 21 years ago, said they were monitoring the situation closely.

“We are concerned but we don’t believe it will result in widespread eavesdropping tomorrow, or next week or next month,” said James Moran, security director of the GSMA.

“The reality is that a practical attack is beyond the capabilities of the vast majority of people,” he said.

However, security experts disagreed, saying that cracking the code significantly lowered the bar for intercepting calls.

“A year ago it would have required equipment costing hundreds of thousands of dollars, and serious expertise to listen in to a call,” said Simon Bransfield-Garth, chief executive of Cellcrypt, a mobile phone encryption company.

“Today it is going to require $1,500 of network equipment and a computer. It is getting down to a mainstream price tag and moving to the point when it will be straightforward to do,” he continued.

“A skilled computer engineer can now build this,” said Mr Nohl.

Mr Moran said that if the hack was thought to pose a serious practical threat, the GSM Association could force all GSM operators to upgrade their security systems to use a stronger form of encryption.

The GSMA has done this once before, in 2004, when security flaws were discovered in another security code, known as A5/2, and operators across Latin America, Asia and Africa were forced to upgrade their networks.

A security upgrade could prove very costly, however, as some operators would have to replace their old base stations completely, Mr Moran said. The A5/2 upgrade, for example, took about 18 months.

A decision on whether to upgrade to a stronger code could be taken at the next meeting of the GSMA security group in February.

Copyright The Financial Times Limited 2009.