The present invention relates to a mobile communication terminal having a function for integrated management of SMS messages, and more particularly to a mobile communication terminal and method for outputting messages sent to or received from a counterpart terminal altogether in chronological order from oldest to newest on one screen when a user inputs an SMS message in a message integrated management mode and selects the counterpart terminal using a phone number or an integrated management group name stored in a message inbox.
With the development of mobile and wireless technologies, mobile communication terminals, such as cell phones and PCS phones, have been widely supplied and developed to become smaller, sleeker and lighter and to offer various additional functions and services. In addition to the standard voice function of a telephone, mobile communication terminals can support many additional communication services, such as SMS (Short Message Service) for text messaging and voice message transmission (i.e. voice mail) service for storing speech and transmitting the stored speech data upon a user's request.
The population using a wireless Internet service and a location tracking service for obtaining the current location information of a mobile communication terminal has also rapidly grown in recent years.
As the most popular function used in mobile communication terminals, SMS offers a bi-directional data service that allows users to send or receive text messages of up to 150 characters in length. SMS messages are sent and received almost simultaneously without the use of any additional operator. Since SMS enables convenient visual communication between users, SMS usage continues to grow among people of varying ages, including young children and even elderly people who are not accustomed to obtaining new information.
SMS has been used as a new way of communication alternative to the typical voice communication. Due to its lower transmission cost, SMS is now viewed as a crucial tool for the support of customer service and marketing. SMS is also commonly used to provide subscribed mobile users with useful information such as weather forecasts, news or stock quotes. Users can search various information offered via SMS. SMS is becoming available for a wider range of applications including e-payment and e-commerce. For example, most credit card companies have introduced an SMS service system to inform customers of their credit card transactions.
Younger users tend to use text messaging services more frequently than their elders. Sometimes, they send or receive many text messages to or from one or more people in a short time. In such cases, text messages are used as a chatting means like instant messages. However, conventional inbox and outbox for storing messages in a mobile communication terminal do not support the chatting function.
In other words, conventional mobile communication terminals store sent messages and received messages separately and in sequential order from most recent to oldest. Since the sent or received messages are listed only in order they were sent or received, users cannot easily confirm messages sent to or received from a specific person.
Therefore, the present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a mobile communication terminal and method for outputting messages sent to or received from a counterpart terminal altogether in chronological order from oldest to newest on one screen when a user inputs an SMS message in a message integrated management mode and selects the counterpart terminal using a phone number or an integrated management group name stored in a message inbox.
According to an aspect of the present invention, there is provided a mobile communication terminal capable of outputting messages sent to or received from a counterpart terminal altogether in chronological order from oldest to newest, which comprises: a key input unit provided with a plurality of alphanumeric keys, a send key, an end key and other function keys for dialing, selecting a menu or inputting a request, and serving as a data input means for selecting a text message integrated management mode and activating a text message editor to input a text message and to select and store message transmission settings; a display unit for displaying the operational status of the mobile communication terminal, including radio signal strength, battery charge level and current date/time, and displaying a user interface for entering the text message integrated management mode, outputting the messages sent to or received from the counterpart terminal altogether and inputting the message transmission settings; a memory having a text message integrated management program that enables a user to input and store a text message and message transmission settings, including a sender and at least one recipient, using the text message editor in the text message integrated management mode and to send the inputted text message to the at least one recipient, and that outputs messages sent to or received from the at least one recipient altogether in chronological order when a reply text message is received from the at least one recipient and added to a list of received messages stored in a message inbox; and a microprocessor for controlling the mobile communication terminal to process data transmission or reception according to a defined communication protocol, implementing the text message integrated management program stored in the memory so as to output an integrated history of messages sent to or received from the counterpart terminal.
In accordance with another aspect of the present invention, there is provided a method for integrated management of text messages in a mobile communication terminal, which comprises the steps of: (a) allowing a user to input a text message through a text message editor and select one or more options for message transmission in order to input option data and message transmission settings; (b) sending the inputted text message to a counterpart terminal, and receiving a reply text message from the counterpart terminal; and (c) detecting when the user selects a specific phone number or integrated management group name from a list of received messages stored in the message inbox, and displaying messages sent to or received from the selected phone number or integrated management group name altogether on one screen in chronological order.
The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which:
a to 3c illustrate user interface displays providing a function for integrated management of text messages according to a preferred embodiment of the present invention, wherein
Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention unclear.
Referring to
The program memory 100 stores an OS (Operating System) software for real-time processing during the operation of the mobile communication terminal and a signal processing software for implementing signal-processing related functions. Also, the program memory 100 stores a text message integrated management program for outputting messages received from and sent to a specific counterpart terminal altogether in chronological order from oldest to newest when a user inputs a text message in a text message integrated management mode and selects the counterpart terminal using a mobile phone number or an integrated management group name stored in a message inbox 310.
As a software program for implementing a text message integrated management function, the text message integrated management program provides the text message integrated management mode. When a text message is sent under message transmission settings, such as a sender, one or more recipients and an integrated management group name 302 or 312, set in a text message editor 300, the text message integrated management program is implemented so that text messages received from the mobile phone number(s) of the one or more recipients or the integrated management group name 302 or 312, and text messages sent to the one or more recipients can be outputted altogether to the display unit in chronological order from oldest to newest. The integrated management group name 302 or 312 refers to the name of a specific group, such as a study group or a club of people who communicate regularly for a specific purpose and share a common interest. The integrated management group name 302 or 312 can be the name of a chatting room. The integrated management group name 302 or 312 is used to display all messages sent to or received from the members in a specific group on one screen.
Sent messages are messages sent from the user's (sender's) mobile communication terminal to one or more counterpart (recipients') terminals. Received messages are messages that have been received from the counterpart terminals.
The text message integrated management program can be embedded in the program memory 100 during the manufacture of a mobile communication terminal or downloaded from a mobile communication service provider's server through a wireless Internet access.
The buffer memory 110 may use any one of a ROM, an EEPROM, a RAM, a flash memory or a volatile or nonvolatile memory. The buffer memory 110 is mounted on an internal circuit board of the mobile communication terminal. Generally, a ROM stores an operating program and a system program of the microprocessor 130. The ROM can be electrically erased and reprogrammed repeatedly if necessary. Also, the ROM stores program variables and status information generated in the execution of various programs stored in the program memory 100, such as an earphone detection control program.
An EEPROM is an electrically erasable and programmable nonvolatile memory that stores storage data, such as NAM (Number Assignment Module) parameters, phone numbers, names and short messages.
The buffer memory 110 generally serves as a data buffer during the implementation of an operating program of the mobile communication terminal. The buffer memory 110 temporarily stores data inputted through the key input unit 140. Also, the buffer memory 110 stores text or image data received from an external device. When a text message is sent in the text message integrated management mode according to a preferred embodiment of the present invention, the buffer memory 110 stores message transmission settings, such as messages received to or sent from a specific person, 10 a sender, a recipient and an integrated management group name 302 or 312, as data.
The mode storing unit 120 stores the current operating mode of the mobile communication terminal as selected through the key input unit 140 using a state flag (0, 1, 2, . . . ). The microprocessor 130 assigns a unique state flag to each mode in order to identify different modes of the mobile communication terminal, such as reception mode, transmission mode, storage mode, search mode, call mode and text message integrated management mode, and updates the mode storing unit 120. Particularly, the mode storing unit 120 stores the text message integrated management mode using a state flag according to a preferred embodiment of the present invention.
The microprocessor 130 controls the overall operation of the mobile communication terminal so that a communication protocol can be processed according to the defined protocol for network and data, referring to the state flags stored in the mode storing unit 120. Particularly, the microprocessor 130 controls the mobile communication terminal to send a text message to one or more recipients according to the message transmission settings made in the text message editor 300 or to receive a reply text message from the one or more recipients and store it. In addition, under the control of the microprocessor 130, messages sent to or received from a specific phone number or integrated management group name 302 or 312 in the message inbox 310 are outputted altogether in chronological order to the display unit of the mobile communication terminal.
When additional text messages are sent to or received from a specific phone number or integrated management group name 302 or 312 stored in the message inbox 310, the microprocessor 130 adds those messages to the list (or history) of messages sent to or received from the specific phone number or group name 302 or 312 so that the messages can be outputted altogether to the display unit.
When the user selects two or more phone numbers or an integrated management group name stored in the message inbox 310 and presses a key to send an inputted text message, the microprocessor 130 controls the mobile communication terminal to send the text message simultaneously to multiple recipients of the selected phone numbers or integrated management group name.
The key input unit 140 is provided with a plurality of alphanumeric keys, a send key, an end key and other function keys for dialing, selecting a menu or inputting a request. The user can select the text message integrated management mode and operate the text message editor 300 by using the keys on the key input unit 140, such as alphanumeric keys, function keys and direction keys. The key input unit 140 serves as a data input means when the user inputs a text message and selects one or more options (for example, a sender and a recipient) in the text message editor 300. The options include the sender's name/phone number, recipient's phone number, integrated management group name 302 or 312, transmission speed (normal, slow or fast), attached file and data inputted in a storage option.
The display unit 150 displays the operational status of the mobile communication terminal, including radio signal strength, battery charge level, current date and time of day. According to a preferred embodiment of the present invention, when the user selects a specific phone number or integrated management group name 302 or 312, the display unit 150 outputs messages sent to or received from the selected phone number or group name altogether. The display unit 150 also outputs a user interface display of items, such as storage options, sender, recipient, integrated management group name, text message editor, file attachment and transmission speed.
The digital signal processor (“DSP”) 160 implements an audio data processing function that encodes or decodes audio data received from or transmitted to the baseband converter 170. The DSP 160 also implements an equalizer function for removing noise in multiple paths. In addition, the DSP 160 receives message data (RX DATA) from the baseband converter 170.
The baseband converter 170 converts signals received from or sent to the speaker 180, microphone 190 or RF signal processor 192 into baseband signals. The baseband converter 170 performs both analog-to-digital conversion and digital-to-analog conversion. The baseband converter 170 converts audio data received from the DSP 160 into an audio signal and outputs the audio signal to the speaker 180. Also, the baseband converter 170 converts an audio signal inputted from the microphone 190 into audio data and outputs the audio data to the DSP 160.
In addition, the baseband converter 170 converts transmitted message data (TX DATA) inputted from the microprocessor 130 into a transmitted message signal (TXIQ) and outputs the signal to the RF signal processor 192. It also converts a received message signal (RXIQ) inputted from the RF signal processor 192 into received message data (RX DATA) which will be outputted to the DSP 160. The baseband converter 170 automatically controls gain of the power of the RF signal processor 192.
The speaker 180 converts an audio signal outputted from the baseband converter 170 into audible sound and outputs the sound. Also, it converts speech inputted through the microphone 190 into an audio signal.
The antenna 191 transmits an RF signal over the air, and transfers an RF signal received over the air to the RF signal processor 192.
The RF signal processor 192 converts a received message signal into an RF (Radio Frequency) signal and outputs the signal to the antenna 191. Also, the RF signal processor 192 converts an RF signal applied from the antenna 191 into a received message signal (RXIQ) and outputs the signal to the baseband converter 170.
It is assumed that a text message integrated management program is embedded in the mobile communication terminal.
A user may select the text message integrated management mode under a text message menu (S200). In the text message integrated management mode, text messages sent to or received from a specific phone number or integrated management group name 302 or 312 are integrated and outputted altogether in chronological order. The text message integrated management mode is different from a conventional text message interface mode that displays only sent messages or received messages in chronological order according to the user's selection of message inbox or outbox. The conventional mode does not classify the sent or received messages by sender or recipient. When the text message integrated management mode is selected, the text message editor 300 is activated so that the user can enter a text message and input various message transmission settings, such as a sender and one or more recipients, necessary for the integrated management of text messages. When the user wishes to send the text message to multiple recipients under a specific group name (like a group name in a chatting room), the integrated management group name 302 or 312 should be inputted and stored (S202). Then the text message is sent to a counterpart terminal or terminals (S204).
Sent messages are messages sent from the user's (sender's) mobile communication terminal to one or more counterpart (recipients') terminals. Received messages are messages that have been received from the counterpart terminals. Counterpart terminals can be one or more.
Although the text message editor 310 according to a preferred embodiment of the present invention is configured to input and store one or more recipients of a text message during the message transmission settings, it is also possible to input one or more recipients in a message recipient item after inputting the text message.
The text message editor 310 contains items, such as message edit, receiver, integrated management group name, storage option, file attachment and transmission speed. The text message editor 310 is configured to enable the user to input both a text message and message transmission settings at the same time. If necessary, however, the input of message transmission settings can be separated from the text message input process. Also, it is possible to add further items of message transmission settings to the text message editor 310.
When a reply text message is received from the counterpart terminal (at least one), the mobile communication terminal stores the received message in the message inbox 310 (S206).
The user may open the message inbox 310 and select a specific phone number or a specific integrated management group name. For example, when the user selects a phone number of a person named “Hong Gildong” in the message inbox 310, all the messages sent to or received from that person are integrated and outputted altogether to the display unit in chronological order from oldest to newest. If additional messages are exchanged between the user and Hong Gildong, those messages will be added to the previously stored list of messages sent to or received from Hong Gildong so that all the messages can be outputted to one screen like a chatting dialogue between the user and Hong Gildong (S208).
When the user selects two or more phone numbers or an integrated management group name 302 or 312 stored in the message inbox 310 and presses a key to send an inputted text message, the text message will be sent simultaneously to multiple recipients of the selected phone numbers or integrated management group name 302 or 312.
a to 3c illustrate user interface displays providing a function for integrated management of text messages according to a preferred embodiment of the present invention, wherein
a illustrates a list of received messages stored in the message inbox 310 under a specific phone number or an integrated management group name 302 or 312.
c illustrates a user interface display for inputting a text message and message transmission settings using the text message editor 310. The user can select the message edit of the text message editor 310 to input a text message, the sender's phone number and one or more recipients. When the text message will be sent to multiple recipients under a specific group name, the integrated management group name 302 or 312 should also be inputted for the integrated management of messages. Then the user can send the text message to the counterpart terminal(s). The integrated management group name 302 or 312 can be inputted in a “message collection” item in
For example, when an integrated management group name “study” is inputted, messages exchanged between the user and the (six) members of the study group are displayed altogether in chronological order on one screen, thereby providing a chatting-like function.
The text message editor 310 according to a preferred embodiment of the present invention contains items, such as message edit, receiver, integrated management group name, storage option, file attachment (file search) and transmission speed (normal, slow or fast). It is possible to input both a text message and message transmission settings in the text message editor 310.
While this invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the present invention is not limited to the disclosed embodiment and the drawings, but, on the contrary, it is intended to cover various modifications and variations within the spirit and scope of the appended claims.
As explained above, the present invention provides a text message integrated management function for integrating messages sent to or received from a specific counterpart terminal and displaying the messages altogether in chronological order on one screen. The function enables a user to easily check the history of messages frequently exchanged with one or more friends, study group students or club members.
According to the present invention, a user can input a text message and set message transmission options using the text message editor. When the user selects two or more phone numbers or a specific integrated management group name stored in the message inbox and presses a key to send the inputted text message, the text message is sent simultaneously to multiple recipients of the selected phone numbers or integrated management group name, which eliminates the need to repeatedly send the message to each recipient.
Number | Date | Country | Kind |
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10-2005-0051596 | Jun 2005 | KR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/KR06/02297 | 6/15/2006 | WO | 00 | 9/28/2007 |