Manual Easyuse Itt Gsm
The ITT EasyUse mobile phone is a light grey colour and the phone weights only 112grams it is 13x5.5x1.5cm and the monochrome 4 line display is 3.5x2.2cm. There are twelve large buttons (four rows of three) each 1.4x1cm and all have a large white numeral on a blue background. Above this are the green call button and the red end call button both with large white illustrations on them these are each 2cm long. Above this are four round buttons M1 to M4 and storing a number on each is as simple as pressing the button and then entering the number, after this just press the button required and the green button and you can make the call. Normally the display will show icons on the top line, the time on the second line and the third line shows the date.
When you dial a number a large box opens and as you dial the digits show up from right to left six to a line so twelve can be input before they scroll off the left of the screen. The battery has a standby time of 160 hours between charges and around 140 minutes talk time. The right side has a mini USB lead to 13amp plug to charge the phone. This same mini USB socket is used to connect the supplied earbuds that enable you to use it in pocket as the earbud lead has a button on it to allow you to answer calls. The left side has three buttons scroll up and scroll down with the basic menu button below this. Unlike most mobile phone this only does three things in sequential presses.
ITT EasyUse SMS Mobile Phone for the elderly, Easy to use, with 7 big buttons, ideal simple mobile phone for the blind or elderly or vunerable. AH Distribution - EasyProject Basic Simple Mobile Phones. Mar 29, 2011 - 3 min - Uploaded by DerTestMichelHallo, heute stelle ich euch mal das ITT EasyUse Seniorenhandy vor.
One enters the phone book that can store 50 numbers, another push enters the time and date mode and the third push allows you to select from nine different ring tones. Of course most modern phones do this and lots more but often they are fiddly to do any entering and the less agile will struggle not only to enter basic information but also to navigate the rather complex menus. There is a small manual in six languages and here the whole concept is blown apart as the sixteen pages in English that explain the simple features and how to implement them are in small type - 30 lines of type on an 11cm long page - totally useless for anyone with less than perfect sight. Okay so a severely limited sight person will probably have a carer or friend to setup the phone but someone who is just old may well not. It's all very well being shown on the RNIB website but surely the instructions could have been on A4 paper well spaced and yes it would probably have meant more pages but those who need a mobile phone without friends to set it up would certainly appreciate the larger instructions. It is available for £139.99 from either of the links below on Vodafone Pay as you Talk package.
BACKGROUND OF THE INVENTION Field of the Invention The invention relates to improvements in data retrieval. Description of the Related Art Various readers and optical scanning systems have been developed for reading printed indicia such as bar code symbols appearing on a label or the surface of an article and providing information concerning the article such as the price or nature of the article. The bar code symbol itself is a coded pattern of indicia comprised of, for example, a series of bars of various widths spaced apart from one another to form spaces of various widths, the bars and spaces having different light reflecting characteristics. The readers electro-optically transform the graphic indicia into electrical signals which are decoded into alpha-numeric characters that are intended to be descriptive of the article or a characteristic thereof. Such characters typically are represented in digital form, and utilized as an input to a data processing system for applications in point of sale processing, inventory control and the like. Known scanning systems comprise a light source for generating a light beam incident on a bar code symbol and a light receiver for receiving the reflected light and decoding the information contained in the bar code symbol accordingly. The readers may comprise a flying spot scanning system wherein the light beam is scanned rapidly across a bar code symbol to be read or a fixed field of view reading system wherein the bar code symbol to be read is illuminated as a whole and a CCD (Charge Coupled Device) array is provided for detecting the light reflected from the bar code symbol.
Known hand-held optical readers are often in the shape of a gun having a handle portion and a barrel portion. The reading window through which the light beam passes is generally located at the end face of the barrel portion, and the reader is aimed at the indicia to be read by the operator holding the handle portion. A trigger is situated in the region of the junction between the handle portion and the barrel portion for operation by the user to actuate the optical reader.
In addition there are known portable hand-held computers for collecting data and down-loading the data to a central or peripheral device. The down-loaded data may be raw data or data that has been processed within the hand-held computer. Data collection can be carried out by entering information to the hand-held computer via a keypad, or by incorporating in the computer an optical reader for example for reading bar code symbols, or incorporating a reader for reading a magnetic card strip. For example when information about various products is required during inventorying, those products may bear bar code symbols or magnetic strips, or have associated magnetic strip cards which are read by the hand-held computer.
The data collected can be transferred from the hand-held computer to a central or peripheral device by known means such as radio frequency radio links, wired connections, infra-red communications or other known transmission arrangements. Often, more than one data capture system is required for a given application. The manufacture of a customized system for a specific application is expensive and difficult to modify if it is subsequently desired to incorporate further data capture options than those originally provided in the customized device. In addition, traditional electronic mail or message delivery services provided on conventional operating environments (for example BSD Unix, SCO Unix) have employed a simple mail box scheme where each user receives messages in a specific mail box or directory. Each machine or host runs its own copy of the mail delivery service and each user therefore receives messages on a particular machine as a result of which each machine is required to provide local storage and data duplications occur frequently.
To mitigate this problem a proposed solution within computer networks having a static configuration has been to offer network file systems providing a unified access mechanism to storage space across the network regardless of a particular machine. Because the relevant files are retained at a single location, the system provides users a unified access to mail boxes and prevents user data duplication on individual machines. With the advent of portable hand-held computer devices which communicate with a central computer, or host by wireless communication a problem has arisen. Generally the device communicates with an access point which is in direct communication with the host. As the device is physically moved, it must re-associate with access points to the host as it moves outside the range of one access point and into the range of another.
Career Paths In Psychology Sternberg Pdf Download more. The problem is further exacerbated when the device is moved from one basic service area to another in which case a permanent network mail system cannot be guaranteed either physically or logically. Currently known electronic mail delivery services include at most two independent 'tasks': mail user agent and mail transfer agent. Mail user agent provides user interface to the service and mail transfer agent deals with the reception and storage of messages in user mail boxes. The tasks generally operate independently, mail user agent being unaware of mail transfer agent status and simply having access to information about mail box details for each user. As discussed above, although the scheme is appropriate when mail boxes are permanently placed or mounted in a file system and accessible by all machines of a network, when a portable wireless hand-held system roams the local area and moves from one basic service area (file system) to another basic service area, the scheme does not operate reliably.
Typical examples of known mail delivery systems are discussed in, for example Sunexpert Magazine of April 1994 in an article entitled 'Sendmail' by Peter Collinson. A message is input to mail user agent and dealt with by mail transfer agent. On large networks the various tasks are carried out by a mail hub machine to which all mail on a network is sent for processing. The system can be enhanced by introducing the possibility of expanding mailing lists, running mail through programs and automatic transfer of mail between certain users. A system becomes progressively more complex as it moves from local mail to mail on the Internet to mail between networks. Further limitations are imposed because of the limited storage capability of hand-held computers (often known as personal digital assistants) as a result of which simple-store-and-forward, multi-user electronic message systems are generally impractical. To operate on a wireless network, mobile units (MUs) must have a domain in order for them to associate with the access points (APs) in an access point group (APG).
An APG is a group of one or more access points connected on the same router on the same network. All access points in the same APG are identified by the same domain. This allows the access points in one APG to communicate over the network without conflicting with other APGs on the same network. The disadvantage of prior art domain assignment protocols is that some MUs may be used on multiple APGs, and possibly on multiple networks. Use of a mobile unit on multiple APGs would require changing the domain of the MU to allow it to communicate via the appropriate APG at the appropriate time. Use of a mobile unit on multiple networks might also require changing the domain, since the APGs on the new network might be in a different domain.
Further, when a TCP/IP stack is used (transmission control protocol/internet protocol), each network node must have a unique IP address for that network. The set of TCP/IP protocols typically encompasses media access, packet transport, session communications, file transfer, electronic mail, and terminal emulation. IP addresses for different networks need not be unique. If multiple networks are connected and nodes communicate across all networks, then the nodes require IP addresses that are unique across the expanded network.
In summary, each access point on a network must have a unique IP address for that network. Each mobile unit on a network, despite the domain it is using, must have a unique IP address for that network.
Mobile units can be used on multiple networks. Use on multiple networks generally requires changing the IP address of the MU since the IP address currently in use by the MU might be in use by another MU on the new network or might not conform to the IP address conventions used by the new network. Consequently, a system is required for assigning domains and IP addresses to mobile units to cover a variety of configurations and many different types of mobile units.
Donald Unpredictable Mp3 Song Download here. Specifically, a system is required to allow for the assignment of domains and IP addresses to mobile units in ways that are sufficiently flexible to support installations where MUs are fixed to specific APGs on specific networks and where MUs travel among different APGs, and possibly among different networks, such as Spectrum One and Spectrum24 (Trademarks of Symbol Technologies Inc.) networks. According to another aspect it has previously been proposed to implement a bar code scanner resident on a control machine running a COMPONENT OBJECT MODEL (COM) object. It is desired to increase the scope of such applications to be compatible with a wide range of models and in particular to introduce a bar code scanner remote from the machine and controlled through a wireless interface. Pending European patent application 485,996 discloses, inter alia, a system for the replacement of depleted inventory using a system in which the replacement inventory items are labelled with bar coded ultimate-destination information, and packed into a container for shipment to a receiving/distribution centre. It is known in general to make use of a two-dimensional bar code symbol, on the exterior of a container, to indicate what is inside: see Material Handling Engineering, October 1992, article entitled 'New Dense Code Symbology Transports Data File'. The Internet computer network is gaining ever increasing significance in the world of science, technology, information and commerce amongst many others. The Internet will be well known to the skilled reader but, in brief summary, comprises a network of computers practically worldwide and accessible from any access point suitably linked to retrieve information contained in the Internet.
Various sub-networks exist within the Internet, one of the best known of which is the worldwide web. Information is commonly stored on the Internet in the form of 'pages' often comprising a 'home page' relating to a general site and providing guidance and access to the contents at that site, the contents being contained in 'sub-pages'. A site includes a unique Internet Protocol address or Universe Resource Locator (URL).
The site can thus be accessed from any access point to the Internet by entering the relevant address and displaying the site held at that address. The user accesses the Internet via a client computer, for example a PC linked to the Internet. The link will typically be via a modem and telephone line and a service provider or server acts as intermediary, the client accessing the Internet via the server. In addition, the server allows the user to set up an Internet site. It will be appreciated that the server generally comprises a fixed station. Such an arrangement can give rise to an unnecessary level of inflexibility.
In particular it is often time consuming and unnecessarily complex to have to access the fixed station server to set up or access an Internet site. Various developments to Internet related systems have been disclosed in US patents.
Referenced by Citing Patent Filing date Publication date Applicant Title * Dec 7, 1998 Jun 23, 1999 A.T. Cross Company Data/pen well * Dec 7, 1998 Oct 16, 2002 A.T.X. International, Inc. Data/pen well * Jul 19, 2000 Mar 28, 2001 NCR International, Inc. Creation, transmission and retrieval of information * Jul 19, 2000 Jun 28, 2006 NCR International, Inc. Creation, transmission and retrieval of information * Mar 27, 2001 Oct 10, 2001 Symagery Microsystems Inc. Image capture and processing accessory * Mar 27, 2001 Nov 19, 2003 Symagery Microsystems Inc.
Image capture and processing accessory * Sep 17, 2001 Apr 24, 2002 Symbol Technologies Inc. XML-based barcode scanner * Sep 17, 2001 Jan 29, 2003 Symbol Technologies Inc. XML-based barcode scanner * May 24, 2000 Jul 17, 2002 Silverbrook Research Pty. Limited Method and system for accessing the internet * May 24, 2000 Jun 16, 2004 Silverbrook Res Pty Ltd Method and system for accessing the internet * Nov 27, 2000 Sep 25, 2002 Silverbrook Research Pty.
Limited Video player with code sensor Nov 5, 1997 Jan 22, 2003 Telxon Corporation Shopping cart mounted portable data collection device with tethered dataform reader * Mar 9, 2001 Feb 5, 2003 Takashi Kitagawa Information processing apparatus with optical data reader, servers, and electronic commerce method * Mar 9, 2001 Aug 12, 2009 Kitagawa Yoshiko Information processing apparatus with optical data reader, servers, and electronic commerce method * Jun 15, 2001 May 21, 2003 Vulcan Northwest, Inc.