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Pocket PC  





A Pocket PC, abbreviated P/PC or PPC, is a hardware specification for a handheld-sized computer (Personal digital assistant) that runs the Windows Mobile operating system. It may have the capability to run an alternative operating system like NetBSD or Linux. It has many of the capabilities of modern desktop PCs.

Currently there are thousands of applications for handhelds adhering to the Microsoft Pocket PC specification, many of which are freeware. Some of these devices also include mobile phone features. Microsoft compliant Pocket PCs can also be used with many other add-ons like GPS receivers, barcode readers, RFID readers, and cameras.

Definition

According to Microsoft, the Pocket PC is "a handheld device that enables users to store and retrieve e-mail, contacts, appointments, tasks, play multimedia files, games, exchange text messages with Windows Live Messenger (Formally known as MSN Messenger), browse the Web, and more." (src: microsoft buyersguide)

From a technical standpoint, "Pocket PC" is a Microsoft specification that sets various hardware and software requirements for mobile devices bearing the "Pocket PC" label.

For instance, any device which is to be classified as a Pocket PC must:

  • Run Microsoft's Windows Mobile, PocketPC edition
Come bundled with a specific suite of applications in ROM

Note: the name Windows Mobile includes both the Windows CE operating system and a suite of basic applications along with a specified user interface

  • Include a touchscreen
  • Include a directional pad or touchpad
  • Include a set of hardware application buttons
  • Be based on an ARM version 4 compatible CPU, Intel XScale CPU, MIPS CPU or SH3 CPU. (As of the Pocket PC 2002 specification, ARM-based CPUs are required.)

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Operating System Versions  

Microsoft's current release is Windows Mobile 6, internally code-named "Crossbow'". It was officially released by Microsoft on February 12, 2007 and Microsoft has promised that it will work seamlessly with Windows Vista.

Windows Mobile 5.0 marked the convergence of the Phone Edition and Professional Edition operating systems into one system that contains both phone and PDA capabilities. A 'Phone' application was included in the OS, and all PIM applications were updated to interface with it. Windows Mobile 5.0 was compatible with Microsoft's Smartphone operating system and was capable of running Smartphone applications.

Pocket PCs running previous versions of the operating system generally stored user-installed applications and data in RAM, which meant that if the battery was depleted the device would lose all of its data. Windows Mobile 5.0 solved this problem by storing all user data in persistent (flash) memory, leaving the RAM to be used only for running applications, as it would be on a desktop computer. As a result, Windows Mobile 5.0 Pocket PCs generally had a greater amount of flash memory, and a smaller amount of RAM, compared to earlier devices.

The first devices to ship with Windows Mobile 5.0 were the HTC Universal (Europe) and the UTStarcom PPC 6700 for Sprint (United States).

The previous release, Windows Mobile 2003 Second Edition added native landscape support as well as other fixes and changes to those features already present in the original release of Microsoft Windows Mobile 2003 for Pocket PC, also known as WM2003. The first device to come with 2003SE was the Dell Axim x30.

Microsoft Windows Mobile 2003 for Pocket PC consisted of the Windows CE.NET 4.2 operating system bundled with scaled-down versions of many popular desktop applications, including Microsoft Outlook, Internet Explorer, Word, Excel, Windows Media Player, and others. Past Pocket PC operating systems include Pocket PC 2002 (launched October 2001) and Pocket PC 2000 (launched April 2000), both running Windows CE 3.0 underneath.

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Vendor of Pocket PC  

Pocket PCs are manufactured and sold by several different companies; the major manufacturers include HP (under the iPAQ and now defunct Jornada brands), Toshiba, Acer, ASUS, Dell (under the now defunct Axim brand), Fujitsu Siemens, HTC, and ViewSonic. In Mid-2003, Gateway Computers and JVC announced they would release Pocket PCs, but the projects were discontinued before a product was released. Prices in 2003 ranged from around $800 USD for the high-end models, some of which are combined with cell phones, to $200 for low-end models. A $100–$200 model was rumored to be released within 2004 or early 2005, although the lowest price for a just-released Pocket PC never went under $300. Many companies ceased to sell PDA's by 2003–2004 because of a declining market. Major Companies such as Viewsonic and Toshiba stopped producing new Pocket PCs.

Before the Pocket PC brand was launched, there were other Windows-based machines of the same form factor made by HP, Philips, and others called Palm-size PCs. These devices ran Windows CE 2.0–2.11 and had an interface that was similar to the then-current desktop versions of Windows, such as Windows 98.

Companies like O2, T-Mobile and Orange are marketing Pocket PCs that have integrated mobile telephony (smartphones). All users have to do is put in the SIM card and follow the wizard, to put their SIM contacts in the address book. An example is O2's XDA, or T-Mobile's MDA Compact. Both of these devices, whilst bearing the phone operator's logo, are actually manufactured by the dominant Pocket PC manufacturer HTC.

An example of a high end consumer-market Pocket PC currently available is the Dell Axim x51v. Hardware specs include 3.7" color TFT VGA display with 640x480 resolution, Intel XScaleTM PXA270 Processor at 624MHz, 336MB of Memory (256MB Flash, 64MB SDRAM), integrated 802.11b and Bluetooth 1.2, integrated Intel 2700G multimedia accelerator with 16MB video memory. Expansion is possible via CompactFlash Type II and SD slots (supporting SDIO Now!, SDIO and MMC cards). Included is a 1100 mAh user replaceable battery (est. 4-6.5 hours, 2200mAh also available)[1].

Some Pocket PCs feature integrated GPS often combined with mobile phone functionality. Pocket PCs with built-in telephony differ from Windows Mobile Smartphone Edition devices in several respects - including the lack of a touchscreen on the latter. Some examples of current Pocket PCs with GPS integrated are the Fujitsu Siemens Pocket Loox N560[2] a high-end Pocket PC with a VGA screen and an integrated SiRF Star III GPS; the HTC TyTN[3] a small communicator with integrated slide in keyboard; the HP hw6945 and HP iPAQ hw6515 with integrated thumb-board, GPS and GSM/GPRS telephony integrated[4]; the HTC top of the line Universal - branded as the QTek 9000 (also branded by various telecommunications companies as the: Orange SPV M5000, T-mobile MDA Pro, Vodafone VPA IV, O2 XDA Exec, i-Mate JasJar, Dopod 900) [5].

A newer entrant into the Pocket PC market is Palm which sells devices like the Treo 700w/wx[6] based on Windows Mobile 5.0 and featuring integrated telephony. Previously Palm only produced PDAs running the Palm OS (as did the first versions of the Palm Treo) and still sell versions of the Treo based on the Palm operating system.

HTC, responsible for manufacturing up to 80% of all phone enabled Windows Mobile devices for other companies (including HP and O2) as well as many non-phone enabled Pocket PCs (for companies such as Dell, HP and Fujitsu Siemens), have announced their intention to market Pocket PCs and Smartphones under their own brand, as well as that of Dopod (a company they are buying out)

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Activesync  

ActiveSync is a synchronization program developed by Microsoft. It allows a mobile device to be synchronised with either a desktop PC, or a server running Microsoft Exchange Server or Kerio MailServer. Only Personal information manager (PIM) data (Email/Calendar/Contacts) may be synchronised with the Exchange Server. (Tasks may also be synchronised with Exchange Server on Windows Mobile 5.0 devices.) The PC synchronisation option, however, allows PIM synchronisation with Microsoft Outlook, along with Internet "favorites", files, and tasks, amongst other data types. Supported mobile devices include PDAs or Smartphones running Windows Mobile, or the Windows CE operating system, along with devices that don't use a Microsoft operating system[1], such as the Symbian platform. ActiveSync also provides for the manual transfer of files to a mobile device, along with limited backup/restore functionality, and the ability to install and uninstall mobile device applications.

Alternative software that allows mobile devices to synchronise non-Microsoft PIMs with a PC is also available; such as FinchSync[2] for Thunderbird, or Intellisync.

Starting with Windows Vista, the latest release of the Windows Operating System, ActiveSync has been replaced with the Windows Mobile Device Center

Release history

* ActiveSync 4.5 - microsoft.com

  • Microsoft Office Outlook 2000 is not supported by ActiveSync 4.5.
  • Conversion of database files for use on a mobile device is not supported by ActiveSync 4.5. On previous versions, this feature was limited to devices running Windows Mobile software for Pocket PC 2003 and earlier.
  • Conversion of font files for use on a mobile device is not supported by ActiveSync 4.5. On previous versions, this feature was limited to devices running Windows Mobile software for Pocket PC 2003 and earlier.
  • ActiveSync 4.2 - microsoft.com
  • ActiveSync 4.1
  • ActiveSync 4.0
o Build 4343 (RTM)
o Build 4358
ActiveSync 4.x no longer allow synchronization via exposed TCP/IP connections (such as WiFi, LAN or Dial-up). Wide Area synchronization is now only supported in conjunction with Microsoft Exchange Server under Windows Mobile devices. These changes have no effect on Personal Area synchronization such as Infrared, Serial, USB or Bluetooth. Also, ActiveSync 4.x only supports syncing with devices with Windows CE 3.0 and higher, and does not support Windows 9x or Windows NT 4.0 as the host operating system.

  • ActiveSync 3.8 - HPC:Factor
  • ActiveSync 3.7
o Version 3.7
o Version 3.7.1
  • ActiveSync 3.6
  • ActiveSync 3.5
o Build 1176
o Build 12007
  • ActiveSync 3.1
o Build 9386
o Build 9439
o Build 9587
  • ActiveSync 3.0

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List of Pocket PC  

Acer N Series








* n10
* n30
* n50
* n35
* n310
* n311
* n300


ASUS










* MyPal A600 [1]
* MyPal A620
* MyPal A620BT
* MyPal A632
* MyPal A636
* MyPal A636N
* MyPal A632N
* MyPal A639
* MyPal A716
* MyPal A730
* MyPal A730W
* P505
* P525
* P535
* P735


Audiovox (Now UTStarcom)










* Thera - Pocket PC with Built-In CDMA Verizon cellphone
* PPC-6600/6601 - HTC Harrier
* PPC-6700 - HTC Apache
* PPC4100 - GSM/GPRS Pocket PC Phone


Cassiopeia









* BE-300
* E-100
* E-115
* E-125
* EM-500


E-TEN








* M600[2]
* G500[3]
* X500 glofiish[4]
* M700 glofiish[5]
* T500[6]
* X800 glofiish[7]


Dell Axim



* Axim X30[8]
* Axim X5[9]
* Axim X50[10]
* Axim X50v[11]
* Axim X51[12]
* Axim X51v[13]


DOPOD




* Dopod C500 [15]
* Dopod C730 [16]
* Dopod HTC Touch [17]
* Dopod D600 [18]
* Dopod M700 [19]
* Dopod C720 [20]
* Dopod 838 Pro [21]
* Dopod 818Pro [22]
* Dopod C800 [23]
* Dopod P800W [24]
* Dopod D810 [25]
* Dopod U1000 [26]
* Dopod 595 [27]
* Dopod 300 [28]


Fujitsu-Siemens




* Pencentra 130[29]
* Pencentra 200[30]
* Pocket LOOX 600
* Pocket LOOX 610BT
* Pocket LOOX 610BT/WLAN
* Pocket LOOX 410
* Pocket LOOX 420
* Pocket LOOX 710
* Pocket LOOX 718
* Pocket LOOX 720
* Pocket LOOX N500
* Pocket LOOX N520
* Pocket LOOX N560
* Pocket LOOX C550
* Pocket LOOX N100
* Pocket LOOX N110
* Pocket LOOX T810
* Pocket LOOX T830


Garmin




* iQue M5 [32]
* iQue M4 [33]
* iQue M3 [34]


Jornada



* Jornada 520 series
* Jornada 540 series
* Jornada 560 series
* Jornada 680 series
* Jornada 690 series
* Jornada 720
* Jornada 820 handheld


HP/Compaq iPAQ




* H 1940
* H 3630
* H 3670
* H 3760
* H4150
* H4155
* HP2210
* HX2110
* HX2400 Series
* HX2795
* HX2795b
* HX4700
* HX4705
* RX1950
* RX1955
* RX3115
* RX3715
* RZ1715
* hw6500 Series


HTC




* HTC Wallaby
* HTC Himalaya
* HTC Falcon
* HTC Magician
* HTC Blue Angel
* HTC Harrier
* HTC Alpine
* HTC Universal
* HTC Wizard
* HTC Apache
* HTC Charmer
* HTC Prophet
* HTC Galaxy
* HTC Trinity
* HTC Artemis
* HTC TyTN/HTC Hermes
* HTC TyTN II/Kaiser


Motorola




* Motorola MC17
* Motorola MC35
* Motorola MC50
* Motorola MC70
* Motorola MPx200
* Motorola MPx220
* Motorola MPx300
* Motorola i920/i930

O2




* O2 Atom
* O2 Atom Executive
* O2 Atom Life
* O2 FLAME

Toshiba




* e310
* e335
* e355
* e400
* e450
* e550g
* e740
* e750
* e800
* e805
* e830
* g500
* g900

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Smartphone  


A smartphone is a mobile phone offering advanced capabilities beyond a typical mobile phone, often with personal computer like functionality. There is no industry standard definition of a smartphone. For some, a smartphone is a phone which runs complete operating system software providing a standardized interface and platform for application developers. For others, a smartphone is simply a phone with advanced features
There is no agreement in the industry about what a smartphone actually is, and definitions have changed over time[6]. According to David Wood, EVP at Symbian, "Smart phones differ from ordinary mobile phones in two fundamental ways: how they are built and what they can do"[7]. Other definitions put different stresses on these two factors[citation needed].

Most devices considered smartphones today use an identifiable operating system, often with the ability to add applications (e.g. for enhanced data processing, connectivity or entertainment) - in contrast to regular phones which only support sandboxed applications[citation needed]. These smartphone applications may be developed by the manufacturer of the device, by the network operator or by any other third-party software developer[citation needed].

In terms of features, most smartphones support full featured email capabilities with the functionality of a complete personal organizer. Other functionality might include an additional interface such as a miniature QWERTY keyboard, a touch screen or a D-pad, a built-in camera, contact management, an accelerometer, built-in navigation hardware and software, the ability to read business documents in a variety of formats such as PDF and Microsoft Office, media software for playing music, browsing photos and viewing video clips, internet browsers or even just secure access to company mail, such as is provided by a BlackBerry

History

The first smartphone was called Simon designed by IBM in 1992 and shown as a concept product that year at COMDEX, the computer industry trade show held in Las Vegas, Nevada. It was released to the public in 1993 and sold by BellSouth. Besides being a mobile phone, it also contained a calendar, address book, world clock, calculator, note pad, e-mail, send and receive FAX, and games. It had no physical buttons to dial with. Instead customers used a touch-screen to select phone numbers with a finger or create facsimiles and memos with an optional stylus. Text was entered with a unique on-screen "predictive" keyboard. By today's standards, the Simon would be a fairly low-end smartphone.

The Nokia 9000, released in 1996, was marketed as a Communicator, but was arguably the first in a line of smartphones. The Ericsson R380 was sold as a 'smartphone'[8] but could not run native 3rd party applications. Although the Nokia 9210 was arguably the first true smartphone with an open operating system, Nokia continued to refer to it as a Communicator.

Although the Nokia 7650, announced in 2001, was referred to as a 'smart phone' in the media,[9] and is now called a 'smartphone' on the Nokia support site,[10] the press release referred to it as an 'imaging phone'.[11] The term gained further credence in 2002 when Microsoft announced its mobile phone OS would thenceforth be known as "Microsoft Windows Powered Smartphone 2002".[12]

Out of 1 billion camera phones to be shipped in 2008, smartphones, the higher end of the market with full email support, will represent about 10% of the market or about 100 million units.[citation needed]

Operating System

The most common operating systems (OS) used in smartphones are:

Symbian OS from Symbian Ltd. (72.4% Market Share)
Symbian has the largest share in most markets worldwide, but lags other companies in the relatively small but highly visible North American market.[13] This matches the success of its largest shareholder[14] and customer, Nokia, in all markets except Japan. Nokia itself enjoys 44.5% of the smartphone market.[15] In Japan Symbian is strong due to a relationship with NTT DoCoMo, with only one of the 44 Symbian handsets released in Japan coming from Nokia.[16] It is used by all the major handset manufacturers, including Motorola, Samsung, LG, and BenQ.[17] It has received some adverse press attention due to virus threats (actually trojan horses).[18]

Linux operating system (13.3% Market Share)
Linux is strongest in China where it is used by Motorola,[19] and in Japan, used by DoCoMo.[20] Rather than being a platform in its own right, Linux is used as a basis for a number of different platforms developed by several vendors, including Motorola and TrollTech, which are mostly incompatible.[21][22] PalmSource (now Access) is moving towards an interface running on Linux.[23] Another platform based on Linux is being developed by Motorola, NEC, NTT DoCoMo, Panasonic, Samsung, and Vodafone.[24]

Windows Mobile from Microsoft (6.1% Market Share)
Windows CE operating system along with Windows Mobile middleware are widely spread in Asia. The two improved variants of this operating system, Windows Mobile 6 Professional (for touch screen devices) and Windows Mobile 6 Standard were unveiled February 2007 and in the first half of 2008 respectively.

RIM BlackBerry operating system (5.3% Market Share)
This OS is focused on easy operation and was originally designed for business. Recently it has seen a surge in third party applications and has been improved to offer full multimedia support.

Palm OS developed by PalmSource (now a subsidiary of ACCESS). (1.6% Market Share)
PalmSource traditionally used its own platform developed by Palm Inc. Access Linux Platform (ALP) is an improvement that was planned to be launched in the first half of 2007. It will use technical specifications from the Linux Phone Standards Forum. The Access Linux Platform will include an emulation layer to support applications developed for Palm-based devices.

OS X from Apple Inc. (1.3% Market Share)
The iPhone uses an operating system derived from Mac OS X. Note that Apple and AT&T do not currently allow third party programs to be installed onto iPhones. Currently, developers can only write applications for the iPhone by creating a web service that can be accessed via the included web browser. However, some have been able to install applications onto the iPhone via unofficial methods.[25] Apple have announced that a software development kit for creating native third party applications will be released in February 2008.

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Personal digital assistant  


Personal digital assistants (PDAs) are handheld computers, but have become much more versatile over the years. PDAs are also known as pocket computers or palmtop computers. PDAs have many uses: calculation, use as a clock and calendar, accessing the Internet, sending and receiving E-mails, video recording, typewriting and word processing, use as an address book, making and writing on spreadsheets, scanning bar codes, use as a radio or stereo, playing computer games, recording survey responses, and Global Positioning System (GPS). Newer PDAs also have both color screens and audio capabilities, enabling them to be used as mobile phones (smartphones), web browsers, or portable media players. Many PDAs can access the Internet, intranets or extranets via Wi-Fi, or Wireless Wide-Area Networks (WWANs). Many PDA's employ touch screen technology.

History

The term "personal data assistant" was on January 7, 1992 by Apple Computer CEO John Sculley at the Consumer Electronics Show in Las Vegas, Nevada, referring to the Apple Newton. PDAs are sometimes referred to as "Palms", "Palm Pilot" or "Palm Tops"

Typical Features

Currently, a typical PDA has a touch screen for entering data, a memory card slot for data storage and at least one of the following for connectivity: IrDA, Bluetooth and/or WiFi. However, many PDAs (typically those used primarily as telephones) may not have a touch screen, using softkeys, a directional pad and either the numeric keypad or a thumb keyboard for input.

Software typically required to be a PDA includes an appointment calendar, a to-do list, an address book for contacts and some sort of note program. Connected PDAs also typically include E-mail and Web support

Touch screen

Many original PDAs, such as the Apple Newton and the Palm Pilot, featured touch screens for user interaction, having only a few buttons usually reserved for shortcuts to often used programs. Touch screen PDAs, including Windows Pocket PC devices, usually have a detachable stylus that can be used on the touch screen. Interaction is then done by tapping the screen to activate buttons or menu choices, and dragging the stylus to, for example, highlight. Text input is usually done in one of two ways:

  • Using a virtual keyboard, where a keyboard is shown on the touch screen. Input is done by tapping the letters.
  • Using letter or word recognition, where letters or words are written on the touch screen, and then "translated" to letters in the currently activated text field. Despite rigorous research and development projects, end-users experience mixed results with this input method, with some finding it frustrating and inaccurate, while others are satisfied with the quality.[1] Recognition and computation of handwritten horizontal and vertical formulas such as "1 + 2 =" was also under development.

PDAs for business use, including the BlackBerry and Treo, have full keyboards and scroll wheels or thumb wheels to facilitate data entry and navigation, in addition to supporting touch-screen input. There are also full-size foldable keyboards available that plug directly, or use wireless technology to interface with the PDA and allow for normal typing. BlackBerry also has additional functionality as push based email and applications.

Newer PDAs, such as the Apple iPhone include new user interfaces using other means of input. The iPhone uses a technology called Multi-touch.

Memory cards

Although many early PDAs did not have memory card slots, now most have either an SD (Secure Digital) and/or a Compact Flash slot. Although originally designed for memory, SDIO and Compact Flash cards are available for such things as Wi-Fi and Webcams. Some PDAs also have a USB port, mainly for USB flash drives.

As more PDAs include telephone support, to keep the size down, many now offer miniSD or microSD slots instead of full-sized SD slots

Wired connectivity

While many earlier PDAs connected via serial ports or other proprietary format, many today connect via USB cable. This served primarily to connect to a computer, and few, if any PDAs were able to connect to each other out of the box using cables, as USB requires one machine to act as a host - functionality which was not often planned. Some PDAs were able to connect to the internet, either by means of one of these cables, or by using an extension card with an ethernet port/RJ-45 adaptor

Wireless connectivity

Most modern PDAs have Bluetooth wireless connectivity, an increasingly popular tool for mobile devices. It can be used to connect keyboards, headsets, GPS and many other accessories, as well as sending files between PDAs. Many mid-range and superior PDAs have Wi-Fi/WLAN/802.11-connectivity, used for connecting to Wi-Fi hotspots or wireless networks. Older PDAs predominantly have an IrDA (infrared) port; however fewer current models have the technology, as it is slowly being phased out due to support for Bluetooth and Wi-Fi. IrDA allows communication between two PDAs: a PDA and any device with an IrDA port or adapter. Most universal PDA keyboards use infrared technology because many older PDAs have it, and infrared technology is low-cost.

Synchronization

An important function of PDAs is synchronizing data with a PC. This allows up-to-date contact information stored on software such as Microsoft Outlook or ACT! to update the database on the PDA. The data synchronization ensures that the PDA has an accurate list of contacts, appointments and e-mail, allowing users to access the same information on the PDA as the host computer.

The synchronizing also prevents the loss of information stored on the device in case it is lost, stolen, or destroyed. Another advantage is that data input is usually a lot quicker on a PC, since text input via a touch screen is still not quite optimal. Transferring data to a PDA via the computer is therefore a lot quicker than having to manually input all data on the handheld device.

Most PDAs come with the ability to synchronize to a PC. This is done through synchronization software provided with the handheld, such as HotSync Manager, which comes with Palm OS handhelds, Microsoft ActiveSync for older versions of Windows or Windows Mobile Device Center on Windows Vista, which comes with Windows Mobile handhelds.

These programs allow the PDA to be synchronized with a Personal information manager. This personal information manager may be an outside program or a proprietary program. For example, the BlackBerry PDA comes with the Desktop Manager program which can synchronize to both Microsoft Outlook and ACT!. Other PDAs come only with their own proprietary software. For example, some early Palm OS PDAs came only with Palm Desktop while later Palms such as the Treo 650 has the built-in ability to sync to Palm Desktop and/or Microsoft Outlook, while Microsoft's ActiveSync and Windows Mobile Device Center only synchronize with Microsoft Outlook or a Microsoft Exchange server.

Third-party synchronization software is also available for many PDAs from companies like Intellisync and CompanionLink. This software synchronizes these handhelds to other personal information managers which are not supported by the PDA manufacturers, such as GoldMine and Lotus Notes.

Customization

As with personal computers, it is possible to install additional software on most PDAs. Software can be bought or downloaded from the Internet, allowing users to personalize their PDAs to their liking. An example of this would be the display theme for the PDA. Almost all PDAs also allow for adding some form of hardware. The most common is a memory card slot, which allows the users to get additional and exchangeable storage space on their handheld devices. There are also miniature keyboards that can be connected to most mainstream PDAs for quicker text input. PDAs with Bluetooth use Bluetooth-enabled devices like headsets, mice and (possibly foldable) keyboards.

Medical and scientific uses

In medicine, PDAs have been shown to aid diagnosis and drug selection and some studies have concluded that their use by patients to record symptoms improves the effectiveness of communication with hospitals during follow-up. The first landmark study in testing the effectiveness of PDAs in a medical setting was conducted at the Brigham & Women's Hospital and Massachusetts General Hospitals in affiliation with Harvard Medical School. Led by the team of Steven Labkoff, MD and Sandeep Shah, the Constellation project used Apple's Newton (first PDA in the market) to cater to the demands of the medical professionals.

Constellation's objective was to test how clinicians in various medical environments (wired vs un wired) would use medical reference books on a hand-held device. The study validated the hypothesis that PDAs with medical content would be used to a greater degree (>40% more often) in unwired environments.

Today, the company evolved from the effort Skyscape offers a wide range of resources including drug information, treatment options, guidelines, evidence based information and journal summaries including the drug & safety alerts. Other entrants include Epocrates and ABX guide, which supply drug databases, treatment information and relevant news in formats specific to mobile devices and services such as AvantGo translate medical journals into readable formats and provide updates from journals. WardWatch organizes medical records to remind doctors making ward rounds of information such as the treatment regimens of patients and programs. Finally, Pendragon and Syware provide tools for conducting research with mobile devices, and connecting to a central server allowing the user to enter data into a centralized database using their PDA. Additionally, Microsoft Visual Studio and Sun Java provide programming tools for developing survey instruments on the handheld. These development tools allow for integration with SQL databases that are stored on the handheld and can be synchronized with a desktop/server based database. Recently the development of Sensor Web technology has led to discussion of using wearable bodily sensors to monitor ongoing conditions like diabetes and epilepsy and alerting medical staff or the patient themselves to the treatment required via communication between the web and PDAs.

Operating system

The currently major PDA operating systems are:

  • Palm OS - owned by PalmSource
  • Windows Mobile Professional and Classic for use on Pocket PCs, (based on the Windows CE kernel) - owned by Microsoft
  • BlackBerry OS - owned by Research In Motion
  • Many operating systems based on the Linux kernel - free (not owned by any company) These include
o Familiar (comes in three flavours: GPE, Opie and barebone)
o OpenZaurus (for Zaurus PDAs)
o Intimate (for PDAs with an exceedingly large amount of memory)
  • Symbian OS (formerly EPOC) owned by Motorola, Panasonic, Nokia, Samsung, Siemens and Sony Ericsson

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Windows CE  

Windows CE (also known officially as Windows Embedded CE since version 6.0) [2] [3](and sometimes abbreviated WinCE) is a variation of Microsoft's Windows operating system for minimalistic computers and embedded systems. Windows CE is a distinctly different kernel, rather than a trimmed-down version of desktop Windows. It is not to be confused with Windows XP Embedded which is NT-based. It is supported on Intel x86 and compatibles, MIPS, ARM, and Hitachi SuperH processors.

Features

Windows CE is optimized for devices that have minimal storage—a Windows CE kernel may run in under a megabyte of memory. Devices are often configured without disk storage, and may be configured as a “closed” system that does not allow for end-user extension (for instance, it can be burned into ROM). Windows CE conforms to the definition of a real-time operating system, with a deterministic interrupt latency. It supports 256 priority levels and uses priority inheritance for dealing with priority inversion. The fundamental unit of execution is the thread. This helps to simplify the interface and improve execution time.

Microsoft has stated that the ‘CE’ is not an intentional initialism, but many people believe CE stands for ‘Consumer Electronics’ or ‘Compact Edition’; users often disparagingly called it “Wince”.[citation needed] Microsoft says it implies a number of Windows CE design precepts, including “Compact, Connectable, Compatible, Companion, and Efficient.”[4] The first version, known during development under the codename “Pegasus”, featured a Windows-like GUI and a number of Microsoft's popular applications, all trimmed down for smaller storage, memory, and speed of the palmtops of the day.

Since then, Windows CE has evolved into a component-based, embedded, real-time operating system. It is no longer targeted solely at hand-held computers. Many platforms have been based on the core Windows CE operating system, including Microsoft's AutoPC, Pocket PC 2000, Pocket PC 2002, Mobile 2003, Mobile 2003 SE, Mobile 5.0, Mobile 6.0 Smartphone 2002, Smartphone 2003 and many industrial devices and embedded systems. Windows CE even powered select games for the Sega Dreamcast, was the operating system of the controversial Gizmondo handheld, and can partially run on modified Microsoft Xbox game consoles.

A distinctive feature of Windows CE compared to other Microsoft operating systems is that large parts of it are offered in source code form. First, source code was offered to several vendors, so they could adjust it to their hardware. Then products like Platform Builder (an integrated environment for Windows CE OS image creation and integration, or customized operating system designs based on CE) offered several components in source code form to the general public. However, a number of core components that do not need adaptation to specific hardware environments (other than the CPU family) are still distributed in binary form only.

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Windows Mobile  

Windows Mobile is a compact operating system combined with a suite of basic applications for mobile devices based on the Microsoft Win32 API. Devices which run Windows Mobile include Pocket PCs, Smartphones, Portable Media Centers, and on-board computers for certain automobiles. It is designed to be somewhat similar to desktop versions of Windows feature-wise and aesthetically. Additionally, third-party software development is available for Windows Mobile. Originally appearing as the Pocket PC 2000 operating system, Windows Mobile has been updated several times, with the current version being Windows Mobile 6.0 and a new release scheduled for 2008.[1]

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Windows CE 3.0  

Microsoft Windows CE 3.0 is an operating system (OS) designed for embedded systems including PDAs and mobile phones, working within the constraints of the slow processors and reduced amount of memory available on these devices. It can run on several different types of processor and has support for real time programming.

The successor to Windows CE 3.0 is Windows CE 4.0.

New and updated features

A distinctive feature of Windows CE compared to other Microsoft software is that parts of it are offered in source code form. In 3.0, the source for several device drivers is available, including those for USB, the display and PCMCIA. They are offered mainly through the Platform Builder OS image integrator, but also through other initiatives.

Microsoft offered several platforms based on Windows CE 3.0, including Microsoft Windows for Pocket PC 2000, designed for handheld PDAs without keyboards.

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