|Publication number||USRE41541 E1|
|Application number||US 11/134,470|
|Publication date||Aug 17, 2010|
|Priority date||Feb 23, 1996|
|Also published as||DE69733678D1, DE69733678T2, DE69737778D1, DE69737778T2, EP0792077A1, EP0792077B1, EP1601167A2, EP1601167A3, EP1601167B1, US6445932, US6611693, US20020193152|
|Publication number||11134470, 134470, US RE41541 E1, US RE41541E1, US-E1-RE41541, USRE41541 E1, USRE41541E1|
|Inventors||Veli-Matti Soini, Markku Rautiola, Jarmo J. Makela, Toni Sormunen, Harri Halminen, Jari Toivanen|
|Original Assignee||Nokia Corporation|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (42), Non-Patent Citations (2), Classifications (28), Legal Events (2)|
|External Links: USPTO, USPTO Assignment, Espacenet|
This is a division of application Ser. No. 08/802,715 filed Feb. 19, 1997 now U.S. Pat. No. 6,445,932.
The present invention is a multi-service mobile station, the data storing and power saving properties of which are optimized and which is connected to a mobile communication network by radio. In addition to the normal mobile station functions, such as speech and data services, said multi-service mobile station is suitable for a versatile data communication terminal. Said multi-service mobile station offers e.g. telefax (facsmile), calendar and notebook services and makes it possible to have a radio connection to other data communication networks, for example to Internet, for utilization of various services.
In the modern information society people are more and more dependent on telecommunication networks and services offered by them. Utilizing telecommunication networks has been experienced to be so important that people no more want to be dependent on the bonds of traditional wired network. This is why a great number of people already have wireless mobile stations, e.g. GSM stations, which are mainly used for normal speech communication.
To a more increasing extent people have become dependent on even other telecommunication services available, such as telefax, electronic mail, Internet and other information transfer services. When one is used to these services in the traditional office environment, they are difficult to give up for example when leaving for a business trip.
In order to manage when on the road, as easily as possible, e.g. one's time and meetings, so called electronic notebooks have been developed. They are generally called PDA (Personal Digital Assistant), PCD (Personal Communication Device) and PIC (Personal Intelligent Communicator) devices. These devices are typically of the size of a largish pocket calculator and often equipped with a touch screen. The user can with a plastic tip pencil designed for this particular purpose, or even by touching the screen with fingers, write text and figures on the screen, from which the device interprets the information given. In addition to that, the user can control the functions of the device by touching menus which the device generates in the display. Typical services made possible by PDA devices are e.g. calendar and notebook services, reminding of agreed meetings by e.g. an acoustic signal, and a phone book from which information can be searched based upon a person's or company's name or other corresponding information. Additionally, PDA devices often also have a pocket calculator function.
When the features of a mobile station, a computer and a typical PDA device are integrated and packed in a very compact size, the result is a very versatile wireless data communication terminal. An example of a device comprising a touch screen known from PDA devices, DOS operating system known from computers, and a traditional mobile station, is presented in U.S. Pat. No. 5,422,656. With the device according to said patent publication it is possible to use various telecommunication services, e.g. to use it as a normal mobile telephone, to transmit and receive telefax messages or to use it as a pocket calculator.
The solutions presented in said US patent yet have their disadvantages. Because the device is based on DOS operating system known from computers, the device must be at commissioning be initialized by loading the operating system in the processor of the device. After this, the first service, e.g. mobile telephone service, is loaded in a memory. When the mobile telephone service is initialized, it further initializes the necessary auxiliary components, and contacts a base station. All these initializing operations are time consuming and it takes quite a long time until the device is prepared for wireless communication after switch-on.
When shifting from one service to another, e.g. from said telefax service to said phone service, the user must first save the eventual information used by him in the previous service in order not to loose it when starting a new service. This is laborious and can easily be forgotten in a hurry. This will happen e.g. when the user is writing a telefax message and answers an incoming call too hurriedly. Alike when initializing the device for the first time, also all new services must be separately loaded in the memory of the device before they can be used. This downgrades the usability of services and does not offer a handy method for transferring information from one service to another. Neither does the operating system used make it possible to use several services simultaneously.
A very big disadvantage is also, that information which has not been stored, is lost when battery voltage drops too low, or if for some other reason power supply is cut off or disturbed. This happens e.g. if the battery gets loose or if there is poor contact in battery terminals.
Now a multi-service mobile station has been invented, with which at least part of the above mentioned problems can be avoided.
The multi-service mobile station according to the invention is always automatically ready for use when a sufficiently charged battery is connected. To enable this without reducing the operating time when battery powered, the multi-service mobile station is preferably provided with an advanced power saving automation. Moving from one service to another is executed either by selecting the required service using specific service keys or by touching the part of a touch screen which indicates the required service. When the user moves from one service to another, the information belonging to the previous service is stored automatically. This is the case e.g. when the user is using some service other than speech service at the moment when an incoming call is connected and preferably no information is lost even if the user moves directly to speech service.
Storing of information is carried out in such a way, that when the user selects a new service, the processor of the multi-service mobile station stores the user input and the status data connected with the previous service in the memory of the multi-service mobile station as a response to leaving a service. When the user for the next time returns to the same service, the processor of the multi-service mobile station retrieves, based upon said status data stored in the memory, the previous user situation of said service and presents it in the display of the multi-service mobile station. In this way the user can continue utilizing the service preferably directly from the situation, in which the service was when last used by the user.
Because the multi-service mobile station automatically stores the information processed by it, it is possible to set the multi-service mobile station in automatic answering mode, in which mode speech service or respectively telefax service is automatically activated upon an incoming message. Using other services during speech service is also possible.
The advanced automatic data storing and power saving methods take care of the storing of information also in case of disturbances in power supply. If the state of battery charge goes down too much, or if e.g. the battery is disconnected from the multi-service mobile station, the information on all services and the processed information are stored automatically. All processed information is usable again when the power supply returns to normal.
The utilization of the services of the multi-service mobile station according to the invention is not limited only to services known from PDA devices and mobile stations, but it can also be equipped with an infrared transmitter-receiver, which enables-utilizing, the multi-service mobile station e.g. for transferring information between the multi-service mobile station and an external device, e.g. a personal computer, as a wireless pay terminal in shops, as a remote control device or as a key in security applications.
It is characteristic of the invention, that the multi-service mobile station comprises information storing means for automatically storing information related to the service in use, when a predetermined criterium is met.
There are several embodiments, different in their mechanical approach, for the multi-service mobile station according to the invention which utilizes automatic data storing methods and power saving methods. By enhancing the display and keyboard of a traditional mobile station it is possible to create a user interface large enough to provide the required services. This is the case in particular if the display of the multi-service mobile station is provided with a touch sensitive surface enabling using the display for receiving alphanumeric and graphic information. The above described solution is applicable if the volume of information to be processed by the multi-service mobile station is not very large, because the small size of the display and/or keyboard set their own limitations.
The multi-service mobile station according to the invention is described in detail in the following using one preferable embodiment, the mechanical solutions of which are different from traditional mobile stations. There are though no limitations to the utilization of the automatic data storing methods and power saving methods according to the invention in devices, the mechanical construction of which has a greater resemblance with traditional mobile stations. Said preferable embodiment enables the use of e.g. a larger display and a larger keyboard without an increase in the multi-service mobile station's main dimensions.
In mobile telephone position, that is when the cover section 10 and base section 20 are folded together as shown in
For example, an incoming call is normally answered using keyboard 12. Differently from a conventional mobile telephone, in this preferable embodiment of multi-service mobile station 1, an incoming call can be answered, in addition to keyboard 12, also by opening multi-service mobile station 1 from mobile telephone position (
If the user sets the multi-service mobile station 1 to automatic answering mode for telefax messages, short messages, such as the SMS (Short Message Service) messages familiar from GSM mobile telephones and electronic mail services, said messages are stored in the memory means 40, 47 of the multi-service mobile station 1. Simultaneously the user can e.g. block incoming calls. Incoming messages are indicated, if so wished, by an acoustic signal and/or in display 11, 15. Multi-service mobile station 1 can transmit messages which have been saved in advance, such as telefax messages, automatically at a predetermined time, even if multi-service mobile station 1 is in the mobile telephone position (FIG. 1). Receiving and transmitting messages and utilizing the data traffic services offered by the device is thus possible, even if multi-service mobile station 1 has been folded in the mobile telephone position.
If multi-service mobile station 1 is in the mobile telephone position and it is in speech mode, i.e. it is transmitting and receiving messages to/from the base station, the opening of multi-service mobile station 1 to mobile telephone position (
When the user closes multi-service mobile station 1 to the mobile telephone position (
In the multi-service mobile station 1 according to the invention, out of the means and functions of a portable computer, an electronic notebook and a mobile station, only those have been utilized which are necessary for the operation of multi-service mobile station 1. By effective integration of the above mentioned means and functions, components can preferably be omitted, e.g. a floppy disk drive and a hard disk, enabling the implementation of the multi-service mobile station 1 according to the invention in a very compact size. The fewer components and the smaller size also facilitate clearly lower manufacturing cost. The highly integrated construction, in which the same processing devices 40, 41, 42, 46, 47 are utilized for providing the mobile station functions as well as telecommunication services, results in an entity which is easier to control. The easiness of control enables employing automatic data storing methods, which are handy for the user and improve the safekeeping of information. The highly integrated construction also enables combining the automatic saving methods with effective power saving methods, resulting in distinctly longer operating and stand-by times.
Multi-service mobile station 1 offers, in addition to speech and data services known from traditional mobile telephones, such as SMS (Short Message Service), also several additional services P1 to Pn. Such services are e.g. the possibility to transmit and receive telefax and electronic mail messages, the possibility to contact Internet, the possibility to use multi-service mobile station 1 as an electronic notebook, or even to utilize the special services of the telecommunication network, such as call forwarding or group call services. Using the familiar WWW (World Wide Web) pages known from Internet environment, it is also possible to utilize new services still under development, such as weather forecast and betting services.
These above mentioned services P1 to Pn are utilized by the user in the preferable embodiment according to the invention mainly with multi-service mobile station 1 folded in the terminal position shown in FIG. 2. In order to have all services P1 to Pn offered by the multi-service mobile station 1 available immediately, without any delay, multi-service mobile station 1 remains preferably in stand by mode always when a sufficiently charged battery 46 is in place. This has been implemented so, that always when the voltage level of battery 46 exceeds a preset value, PowerOn 30 (FIG. 3), the processor 41 (
The application programs P1 to Pn offering the various services P1 to Pn, can be executed in the flash memory of multi-service mobile station 1, alike the operating system (Execute In Place), but the processor may, based upon the information offered by application program P1 to Pn, load the required application programs P1 to Pn from flash memory 47 to memory 40, in which the desired application programs also can be executed. This is a preferable feature for example when high read and/or write speed is required by an application program P1 to Pn which offers a certain service P1 to Pn. In memory 40 the application programs P1 to Pn are available for processor 41 without delay, until the battery voltage drops below a preset limit PowerOff 35 (FIG. 3).
Flash memory 47 can be expanded according to a user's needs, and it facilitates updating of services P1 to Pn and adding new services even afterwards. Flash memory 47 can be expanded with an add-on module (not shown in the figure) which is connected to the PCMCIA bus.
When a user moves from a first service P1 to a second service P2, e.g. by pushing menu keys 21, processor 41 of the multi-service mobile station 1 saves the information from the display 15 of first service P1 and the user input P1′ in memory 40 of multi-service mobile station 1. When the application program P1 so commands, which is preferable for securing the information, the user input is stored also in flash memory 47. In order to secure user information, it is possible, according to commands given by service P1 to Pn, to store information from memory 40 to flash memory 47 also according to other criteria. The information can be stored e.g. at five minute intervals, or the storing process can be connected to the power saving automation. When connected to the power saving automation, the same criteria can be used e.g. for switching off the display.
In multi-service mobile station 1 according to the invention, memory 40 is preferably of DRAM (Dynamic Random Access Memory) type. SRAM (Static Random Access Memory) used widely in PDA equipment is expensive and consumes plenty of electricity. Using DRAM memory, the operating time of multi-service mobile station 1 has been increased. Another significant advantage is that the information processed by multi-service mobile station 1 is immediately readable from the DRAM memory. In this way said first service P1 and the information related to it and in its display 15 are ready for use in memory means 40, 47 at once when the key assigned to said first service P1, e.g. menu key 21, is pressed next time. This makes it possible, among other things, that when momentarily going over from typing a telefax message to e.g. the SMS service, and returning to the telefax service, typing the telefax message can be continued from the same point, in which the user was before going over to the SMS service. The status information of each service, such as which file it was that was open and at Which point the user was editing said file, can for example be stored in the memory segment (P1′ to Pn′) allocated individually for each service. When each service is started, processor 41 of multi-service mobile station 1 reads the corresponding status data and initializes said status information of the service.
Said first service P1 and second service P2 utilize preferably same memory media 40, 47 making transferring information between different services easy and quick.
Said memory means 40, 47 and services P1 to Pn are arranged in such a way that the desired information can be transmitted as a telefax message, as a SMS message known from GSM systems, or as electronic mail through Internet by pressing just one key 15, 16, 17, 21, 22, 23. The required telefax, telephone or electronic mail addresses are retrieved automatically by multi-service mobile station 1 from its memory means 40, 47, if they have been stored there in advance. The user simply e.g. writes the required message using QWERTY keyboard 22, and after that just selects to whom and by which transfer method he sends the message. Respectively, the same message can easily be transmitted using several methods of transmission, e.g. as a SMS message to a mobile station and to a telefax in an office. If the address information is not found in the memory means, the user can input them individually for each transmission. The information to be transmitted is stored in memory means 40, 47, and when the user has selected the preferred transmission method, processor 41 of multi-service mobile station 1 executes the necessary processing operations, e.g. modifies text information to meet the requirements of telefax protocol. After this the required information is transferred by radio, utilizing the telephone module 42 of multi-service mobile station 1, utilizing the data channel provided by the module. The function of telephone module 42 is alike that of a familiar mobile station, e.g. a GSM mobile telephone, known to a person skilled in the art.
In order to be able to control effectively the power saving and data storing automation of multi-service mobile station 1, the processor 41 of multi-service mobile station 1 must know the charge status of battery 46. The charge status of the battery is examined e.g. by monitoring the voltage over battery 46 during charging and discharging battery 46. The voltage over battery 46 is measured employing analog/digital converter 45 connected to the poles of battery 46. A/D converter 45 forwards to processor 41 the voltage over battery 46 in digital form with sufficient accuracy, typically some tens of millivolts.
The charge status of battery 46 is examined employing several limits 30 to 36 (FIG. 3). If the voltage over well charged battery 46 drops below preset limit value 1Warning 32, the processor 41 of the multi-service mobile station 1 notifies the user of the weakening of the charge status of the battery through display 11, 15 or by an acoustic signal. If the voltage over battery 46 drops further below preset limit value 2Warning 33, multi-service mobile station 1 cuts off power supply to means 42, which are connected with transmission and reception of messages by radio. This is carried out by employing switch 43 controlled by processor 41. At the same time multi-service mobile station 1 outputs a second warning of the weakening battery charge status, and notifies that services requiring transferring messages by radio cannot be used until the battery has been recharged.
When the battery charge status further becomes weaker, or sufficient current supply is prevented for some other reason, so that voltage over the battery drops below preset limit value Store 34, the processor 41 of multi-service mobile station 1 stores the information processed by all services in such memory means 47 of multi-service mobile station 1, which are suitable for long time data storing and need no current. In this way no information is lost. When flash memory 47 is used, care must be taken, in order to secure the information storing, that the amount of unsaved data does not exceed the limit value characteristic of flash memory, typically approximately 1 kbyte, which is the largest amount of data when the fast storing method characteristic of flash memory is used. This requirement is easy to meet in application programs P1 to Pn, which are, due to their program being capable of measuring e.g. the amount of data, input by the user using QWERTY keyboard or the amount of data contained in an incoming telefax message.
If the voltage over battery 46 drops further below preset limit value PowerOff 35, multi-service mobile station 1 cuts off power from even the section of multi-service mobile station 1 offering data traffic services and remains waiting for battery change or recharging. As a last precaution, battery 46 itself measures its own voltage and cuts off the voltage from its terminals when the battery cell voltage drops below preset limit value BatteryProtection 36. The cutting off is executed by a built in switch (not shown in the figure) in battery 46. When the voltage over the battery next time exceeds preset limit value PowerOn 30, multi-service mobile station 1 is reactivated and services P1 to Pn are ready for use again.
In order to maximize the stand by and operation times, particular attention has been given to developing the power saving methods. In multi-service mobile station 1 such a power saving automation is employed, which is based upon a close-knit cooperation between hardware and operating system. In regard to its functions, multi-service mobile station 1 can be divided into two modules, telephone module 42 and service module. Telephone module 42 comprises means for connecting the multi-service mobile station 1 by radio to the telecommunication network. In addition to that, display 11 and keyboard 12 belong to the telephone module. The service module comprises means for offering communication services, such as display 15, and keyboards 16, 17, 21, 22, 23. Both said modules employ partly or entirely same means of processing 40, 41, 46, 47.
As stated above, the operating voltage is always on in the service module of multi-service mobile station 1, provided that the battery voltage exceeds preset limit value PowerOn 30. Correspondingly, the telephone module can be used for transmission and reception of messages if the battery voltage exceeds preset limit value RadioOK 31. Because the level of RadioOK 31 is higher than PowerOn 30, the service module is always active if messages are transferred by radio. This makes it possible for processor 41 of the service module to control also the operation of the power saving automation of the telephone module. If the service module wants to transfer messages by radio, the processor 41 of the service module activates telephone module 42 in order to assist in executing the service. Preferably, the RF module (not shown in the figure), which is comprised in telephone module 42 and consumes plenty of energy, is activated individually only when it is required because of transmission or reception of a message. Correspondingly, power supply to the RF module is cut off immediately when possible with regard to offering the service.
If the user is not using multi-service mobile station 1 when the first preset, typically time related criterium is met, the processor 41 of multi-service mobile station 1 shifts multi-service mobile station 1 to the first stage of power saving, when the clock signals of the processing media 41 are stopped in order to save current. Multi-service mobile station 1 is reactivated if the user touches any of keys 12, 16, 17, 21, 22, 23, folds it to the mobile telephone position shown in
Multi-service mobile station 1 according to the invention is equipped with an infrared transmitter/receiver unit, which makes it possible for the multi-service mobile station 1 to communicate with external equipment. This enables using the multi-service mobile station 1 e.g. instead of a credit card or other payment card in payment applications for example in shops and gas stations. The infrared transmitter/receiver unit enables using the multi-service mobile station 1 also as a remote control device, as a key or as a means of identification in security applications, or as an interface to a wireless WLAN network (Wireless Local Area Network). A very convenient feature is also the data transfer between multi-service mobile station 1 and a computer, and for example printing out received telefax messages using a printer connected to a network. These services may be integrated into multi-service mobile station 1, or they can be added to multi-service mobile station 1 using separate add-on modules.
Because, additionally, the multi-service mobile station 1 according to the invention has the data traffic interfaces of the future and enhancements possibilities are well catered for, the present and the future services can preferably be utilized effectively using multi-service mobile station 1.
We have here presented the execution and some embodiments of the invention utilizing examples. It is obvious to a person skilled in the art that the invention is not limited to the details in the above presented embodiments and that the invention can be executed even in another embodiment without deviating from the characteristics of the invention. The above presented embodiments should be regarded as enlightening but not limiting. Thus the possibilities of executing and using the invention are limited only by the enclosed claims. Accordingly, the various embodiments of the invention specified in the claims, equivalent embodiments included, are covered by the invention.
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|U.S. Classification||455/556.1, 455/575.1, 455/566, 455/567|
|International Classification||H04W52/02, H04W88/06, H04M1/02, H04M1/72, H04M1/725, H04M1/00, H04M1/73|
|Cooperative Classification||H04W88/06, H04M1/72547, H04M1/72522, H04W52/0277, H04W52/0261, H04M2250/16, H04M1/0245, H04M2250/18, H04W52/0251, H04M2250/22, H04M1/0214|
|European Classification||H04W52/02T8, H04W52/02T8E, H04W52/02T8E2, H04M1/02A2F2, H04M1/725F1, H04M1/02A2B4|
|Jan 26, 2011||FPAY||Fee payment|
Year of fee payment: 8
|Feb 11, 2015||FPAY||Fee payment|
Year of fee payment: 12