Avaya 302d Attendant Console Manual Lawn
/avaya-302d-attendant-console-manual-lawn.html[LEFT] In June 2001, the 302D Attendant Console replaced all sales of the 302C Attendant Console (along with all prior models – 302A, 302B). It is important to note that the 302D is 2-wire only and is backward compatible to all 2-wire DEFINITY installations.[/LEFT] [LEFT] The 302As, 302Bs are 4-wire compatible only; where as the 302Cs are both 2-wire and 4-wire compatible.[/LEFT] [LEFT] Product Migration Path: [/LEFT] [LEFT] The 302D Attendant Console is a viable replacement; however, the 302D is 2-wire only compatible and the customer must address this in the event that 302As or 302Bs (both 4-wire) are being replaced ( certain circuit cards will need to be replaced with cards that support 2-wire at the customer’s expense )[/LEFT].
Avaya 302d User Manual Telephones. Attendant Console 302D. Cord Setting 1. InFocus Headset Not every phone model is listed here but the InFocus. Seller: silkcitytech (54) 100%, Location: Fair Lawn, New Jersey, Ships to: US & many other countries, Item: 01 This is a used Fully working NORTEL NORSTAR PLUS MICS MODULAR ICS SYSTEM NT7B53FA-93 & Power Supply Photos were edited on a photo editor to give you the best experience possible.
Publication number US5 A1 Publication type Application Application number US 12/791,617 Publication date 6 Jan 2011 Filing date 1 Jun 2010 Priority date 29 May 2009 Also published as,, Publication number 12791617, 791617, US 20 A1, US 2011/004835 A1, US 5 A1, US 5A1, US A1, US A1, US-A1-5, US-A1-, US20A1, US2011/004835A1, US5 A1, US5A1, US A1, USA1 Inventors, Original Assignee, Export Citation,, (19), (36), (8), (2) External Links:. A graphical planner allows a user to create or select, and then display, images that represent tasks and events to be completed by the user, as well as corresponding images that represent tasks and events that the user has already completed. The graphical planner allows a user to plan and schedule events and tasks by indicating an event or task in a non-textual (i.e., graphic or symbolic) manner. Completion of the events and tasks by the user can also be signaled or otherwise indicated in a non-textual (e.g., visual, audible) manner. Mobile computing devices such as “smart” phones (e.g., Apple's iPhone®, Research in Motion's Blackberry®, Google's Droid®), personal digital assistants (“PDAs”), and the like have become ubiquitous tools of modern life. In addition, tablet computers (e.g., Apple's iPad®) and other portable computing devices with a touch screen interface are becoming increasingly available. These developments have occasioned a significant increase in the number of applications being developed to run on such devices.
Applications for planning and scheduling events and tasks are known in the prior art. Some of these applications can be used in connection with mobile computing devices such as those described above. For the most part, prior art planners and calendars rely on a traditional calendar format to display events as text entries in a chronological list. Furthermore, tasks (i.e., things a person must get done, but not at a particular time) and events (i.e., things a person wants or needs to do at a predetermined or scheduled time) are managed, maintained, and displayed separately.
Further, the prior art planners and calendars rely heavily upon using text (i.e., alphanumeric characters) to represent an event or task to be completed. As a result of the space constraints associated with the user interface (e.g., a screen) of most mobile computing devices, text is an impractical and cumbersome method of conveying information. Often, the amount of text that is required to convey information about an event or task, combined with the small space available, results in the text appearing too small to read. Thus, prior art planners fail to convey necessary information to the user. Often, an image or symbol can convey a message much more efficiently than text. In addition, images have different meanings to different people. Moreover, the events and tasks any particular person wishes to accomplish are personal to that user.
Thus, a need exists for a planner that allows each user to chose and/or create the particular images or symbols that efficiently convey to himself or herself the information he or she needs to schedule or plan events and tasks. Prior art planners fail to meet this need. In view of the above, there is an unmet need for systems, methods and apparatuses for planning and scheduling events and tasks that allow a user to indicate an event or task in a freestyle, non-linear, and/or ad hoc manner. There is also an unmet need for systems, methods and apparatuses for planning and scheduling events and tasks that allow a user to indicate an event or task in a non-textual (i.e., graphic or symbolic) manner. There is also an unmet need for systems, methods and apparatuses for planning and scheduling events and tasks that provide a user with a non-textual (e.g., visual, audible) indication that an event or task has been completed. There is also an unmet need for systems, methods and apparatuses for displaying and managing events and tasks together instead of separately. In one exemplary embodiment, an apparatus (e.g., a smart phone) for scheduling at least one of an event and a task to be completed by a user is disclosed.
The apparatus includes a processing unit and a display. In one exemplary embodiment, the display is a touch screen.
The processing unit includes (e.g., as software running therein) scheduling logic. The scheduling logic is operable to display a screen on the display, the screen including an add event button or the like; detect selection of the add event button by the user and display a plurality of graphic icons on the display in response thereto; detect selection of a specific graphic icon by the user for representing the event or task and display the specific graphic icon on the screen in response thereto; and allow the user to associate the specific graphic icon with at least one of a time and a date. In one exemplary embodiment, the scheduling logic is operable to display a clock shape including a plurality of symbols representing a plurality of hours in a day on the main screen.
In one exemplary embodiment, the clock shape approximates a substantially circular analog clock face. In one exemplary embodiment, the symbols are numerals. In one exemplary embodiment, the clock shape includes an hour hand and a minute hand extending from a center of the clock shape, a position of the hour hand and the minute hand corresponding to the current time. In one exemplary embodiment, the scheduling logic is operable to display a line connecting the specific graphic icon to an area of the clock shape disposed between or adjacent to a first numeral representing a start time of the event or task and a second numeral representing an end time of the event or task. In one exemplary embodiment, the scheduling logic is operable to allow the user to indicate that the event or task has been completed. In one exemplary embodiment, the scheduling logic is operable to cease displaying the specific graphic icon once it is determined that the task has been completed.
In one exemplary embodiment, the scheduling logic is operable to replace the specific graphic icon with a different graphic icon once it is determined that the task has been completed. In one exemplary embodiment, the scheduling logic is operable to provide an audible indication once it is determined that the task has been completed. In one exemplary embodiment, a method of scheduling at least one of an event and a task to be completed by a user is disclosed.
The method includes displaying a screen on a display, the screen including an add event button or other means for initiating creation of a new event or task; detecting selection of the add event button by the user and displaying a plurality of graphic icons on the display in response thereto; detecting selection of a specific graphic icon by the user for representing the event or task and displaying the specific graphic icon on the screen in response thereto; and allowing the user to associate the specific graphic icon with at least one of a time and a date. “Software” or “computer program” as used herein includes, but is not limited to, one or more computer readable and/or executable instructions that cause a computer or other electronic device to perform functions, actions, and/or behave in a desired manner. The instructions may be embodied in various forms such as routines, algorithms, modules or programs including separate applications or code from dynamically linked libraries. Software may also be implemented in various forms such as a stand-alone program, a function call, a servlet, an applet, instructions stored in a memory, part of an operating system or other type of executable instructions. It will be appreciated by one of ordinary skill in the art that the form of software is dependent on, for example, requirements of a desired application, the environment it runs on, and/or the desires of a designer/programmer or the like. Quasimoto Astronaut Ep Rar on this page. A graphical planner, according to one exemplary embodiment, is implemented as an apparatus including logic and/or software in a mobile computing device having a processing unit.
In an exemplary embodiment, the graphical planner includes two main screens, an a.m. Main screen 100, as shown in FIG. 1, and a p.m. Main screen 200, as shown in FIGS. Each of the main screens displays a twelve hour period.
In one exemplary embodiment, the a.m. Main screen 100 includes a color scheme that differs from a color scheme of the p.m. Main screen 200. In one exemplary embodiment, the a.m.
Main screen 100 is clearly labeled “AM” and the p.m. Main screen 200 is clearly labeled “PM” to allow the user to readily determine which twelve hour period is currently being displayed. In one exemplary embodiment, the user may navigate between consecutive periods of time, such as consecutive twelve hours periods, by interacting with the user interface.
For example, in one embodiment, the user interface is a touch screen, and the user may slide his or her finger to the right or left on the touch screen to navigate between screens displaying consecutive twelve hour periods. Thus, for example, if the user is on the a.m. Main screen 100, the user may slide his or her finger from right to left on the touch screen to navigate to the p.m. Main screen 200. Sliding his or her finger on the p.m.
Main screen 200 will then bring the user to the a.m. Main screen of the next day.
Conversely, sliding his or her finger from left to right on the touch screen will allow the user to navigate to main screens corresponding to preceding time periods. With reference to FIG. Main screen 100 of the graphical planner is shown. One feature of the a.m. Main screen 100 is a main analog clock 113. The main analog clock 113 includes the numerals (e.g., Arabic or Roman) 1 through 12, which are placed on the main analog clock 113 so as to correspond to each of the twelve a.m.
The main analog clock 113 can additionally include means for displaying the current time. In one exemplary embodiment, the means for displaying the current time are clock hands 109. A person of ordinary skill in the art will appreciate that the scheduling logic may communicate with other software to detect the current time zone settings. Pictured in association with the main analog clock 113 are one or more graphic icons 202. The graphic icons 202 correspond to events or tasks which the user wishes to complete.
In one exemplary embodiment, the graphic icons 202 are displayed so as to be associated with the time of day on which the event or task is to occur. In one exemplary embodiment, tick marks 101 define spaces 112 around a periphery of the main analog clock 113. The spaces 112 are highlighted or otherwise changed in color to show the time and duration of a scheduled event. In one exemplary embodiment, a duration bar 110 is displayed to show the time and duration of a scheduled event or task. In one exemplary embodiment, a connecting line 111 is used to connect each graphic icon 202 to a relevant duration bar 110 and/or one or more relevant spaces 112 of the main analog clock 113. For example, with reference to FIG.
1, the user has scheduled golf from 7:00 a.m. Until 8:00 a.m., and has scheduled coffee from 9:00 a.m.
Until 10:00 a.m. Duration bars 110, tick marks 101, spaces 112, and/or connecting lines 111 cooperate to display the time and the duration for these scheduled events. In one exemplary embodiment, the graphical planner displays an a.m. Main screen 100 and a p.m. Main screen 200 for each day. A date and day of the week corresponding to each screen is also displayed to the user.
For example, the date and day of the week may be displayed on a banner 108 on the main screens 100 and 200. One of ordinary skill in the art will appreciate that the day can be displayed nearly anywhere on the main screens 100 and 200, and need not necessarily be shown in the banner 108. With further reference to FIG. 1, navigation within software implementing the graphical planner, according to one exemplary embodiment, will now be explained. Main screen 100 and the p.m. Main screen 200 contain buttons. The buttons are defined regions, locations, or the like displayed on a screen to form a user interface, which allows for interaction between the user and the graphical planner.
One of ordinary skill in the art will appreciate that the user may interact with the buttons any of numerous ways, such as by tapping on them with a finger, holding his or her finger on the button, or double tapping on the button in the case of a touch screen display; or, if a mouse is used, single or double clicking on the buttons. In addition to, or in lieu of, buttons, one of ordinary skill in the art will appreciate that the user may interact with the software through voice commands. In addition to, or in lieu of, buttons, one of ordinary skill in the art will appreciate that the user may interact with the software through menus, such as pull-down menus or pop-up menus. In addition, the user interface may include user input mechanisms provided by the operating system of the computing device or other external software. Hereafter, “tapping” will be used to collectively refer to any method of interacting with the user interface.
The graphic icon library 300 includes one or more graphic icons, such as graphic icons 302 a- 302 k. Any number of graphic icons can be included in the graphic icon library 300. The graphic icons 302 a- 302 k depict images, symbols, or other graphical representations that illustrate or conjure corresponding user events or tasks that the user may wish to complete. For example, a bicycle graphic icon 302 f may be used to represent a trip the user plans to take.
In one exemplary embodiment, at least some of the graphic icons can be more abstract such as, for example, an exclamation point graphic icon 302 a for representing something important that the user must do. In another exemplary embodiment, a generic bubble icon 301 is provided as one choice among the graphic icons. The generic bubble icon can take any form and may differ from the other graphic icons in that it may contain no image or symbol. For example, the generic bubble icon may appear as an empty balloon or a circle. In one embodiment, the user can select from among several different generic bubble icons. In one exemplary embodiment, the user can define a size and/or shape of the generic bubble icon.
In one exemplary embodiment, at least some of the graphic icons can be more specific to or otherwise customized by the user. For example, in one exemplary embodiment, the software may communicate or otherwise interface with a camera within the user's mobile computing device or with another computer.
Using methods which are well known in the art, the software may allow a user to import a photograph from the camera, another computer, or a digital storage device, and then convert the photograph to a graphic icon. For example, the user could import a photograph of a beach (taken by the user or by someone else) and use the beach photograph as a graphic icon to show that he or she will be on vacation on a certain day or days.
As another example, the user may wish to use the beach photograph icon simply as a reminder to go to the gym. In one exemplary embodiment, the graphical planner provides customizable graphic icons and/or customizable sets of graphic icons.
For example, a user population or group comprising medical students may desire a set of icons that corresponds to events and tasks that are common to the life of a medical student. On the other hand, a stay-at-home parent may desire a set of icons that corresponds to events and tasks that are common to the life of a stay-at-home parent. Using methods that are well known to those skilled in the art, the software may allow a user to import a customized set of graphic icons. In one exemplary embodiment, the software allows a user to import one or more specific icons, a la carte, from a menu of available icons. In one exemplary embodiment, graphic icons may be downloaded or imported in exchange for a fee that is separate from a fee for the graphical planner.
Once the user has navigated to the graphic icon library 300, the user may then select a desired graphic icon or choose the generic bubble icon. If the user navigated to the graphic icon library 300 from the a.m. Main screen 100 or the p.m. Main screen 200 then, once the user chooses the desired graphic icon (or chooses the generic bubble icon), the user is returned to the originating main screen.
In one exemplary embodiment, the chosen graphic icon (or generic bubble icon) is then shown on the main screen. In one exemplary embodiment, the chosen graphic icon is placed in a predetermined area on the main screen.
In one exemplary embodiment, the chosen graphic icon is placed at a random location on the main screen. The user may then move the graphic icon (for example, by holding and dragging the icon with his or her finger on a touch screen, or by clicking on and dragging the icon using a mouse or similar input device) to another location on the main screen, such as a desired position on the main analog clock 113. If the graphic icon is moved to a position on the main analog clock 113, the graphic icon is then displayed so as to be associated with the time of day on which the event or task is to occur, as described above. In one exemplary embodiment, the software sets a default duration, such as one hour, when the user moves a graphic icon to a position on the main analog clock 113. Thus, a user may schedule an event or task in a simple three-step process by tapping on the add event button 103 of the a.m. Main screen 100 or the p.m. Main screen 200, selecting a graphic icon 302 or the generic bubble icon 301, and moving the graphic icon 302 or the generic bubble icon 301 to a desired location on the main analog clock 113.
If the event or task gets rescheduled or postponed, the user may re-associate the graphic icon or generic bubble to a new time or date, and/or adjust its duration. In one exemplary embodiment, the user may reschedule events or tasks by tapping on, then dragging, the graphic icon or generic bubble to the new time. Alternatively, with reference to FIG. 4, the user may reschedule an event or task by changing the beginning time or end time using the data input fields 404 and 405 on the details screen 400, as further described below. In addition, the user may adjust the duration of an event or task by touching with two fingers the opposite edges of the associated duration bar 110 on the main screen 100 or 200 and moving his or her fingers closer or farther apart.
In one exemplary embodiment, when a user schedules an event having a duration that exceeds the duration of time that is displayed on the main screen 100 or 200, then the duration bar 110 extends to and is shown on the main screen corresponding to the next consecutive time period. For example, with reference to FIG. 1, if the user schedules an event beginning at 11:00 a.m. And ending at 2:00 pm on May 20, 2010, then a duration bar 110 is displayed from 11:00 to 12:00 on the a.m. Main screen 100 and from 12:00 to 2:00 on the p.m. Main screen 200. For an event having a duration that exceeds one full day, then the duration bar 110 may continue to be shown in association with the main analog clock 113 for each intervening period.
In one exemplary embodiment, the scheduling logic allows the user to adjust the size of the graphic icon or generic bubble. For example, a user may wish to make the graphic icon associated with a particularly important event appear larger than other graphic icons on the main screen 100 or 200. Alternatively, the user may wish to change the color of the graphic icon to indicate the level of its importance or other pertinent information. In addition, the user may choose to associate a sound file with a particular graphic icon, such an inspirational or encouraging audible message. Such functionalities provide the user a more accurate “picture” of what is to be accomplished in a given time period and provide the user a new way of prioritizing events and tasks and/or getting motivated to complete events or tasks. Such functionalities are not provided by prior art planners. In another exemplary embodiment, the scheduling logic sizes or re-sizes the graphic icons and generic bubble icons to approximate an optimum size depending on the number of events or tasks scheduled in the time period displayed on the main screen.
A display size and resolution of the user's computing device can also be taken into consideration when approximating the optimum size. For example, if the user has scheduled four events or tasks in a single twelve hour period, the graphic icons may appear in a first size, and if the user has scheduled eight events or tasks in a single twelve hour period, the graphic icons may appear in a second, smaller, size. In another exemplary embodiment, the scheduling logic approximates the optimal placement of the graphic icons in relation to the main analog clock 113, so that each graphic icons is correctly associated with the time and duration chosen by the user in relation to the main analog clock 113. By optimally sizing the graphic icons and/or optimally placing the graphic icons on the screen, the graphical planner conveys information more efficiently and more simply than other prior art planners. Using graphic icons transcends language barriers, removes the limitations imposed by space consuming text, and requires less user effort.
Such functionalities are particularly advantageous in view of the space constraints associated with many mobile computing devices. Additionally, as shown in FIG. 7, the user can choose not to associate a selected graphic icon with a particular time. Such may be the case, for example, if the user chose a birthday cake icon and wants to remember to wish his or her friend a happy birthday at some point before the end of the 12 hour period.
Herein, events that are unassociated with a particular time will be referred to as “virtual events” and are synonymous with tasks. For virtual events, the graphic icon is displayed without a connecting line 111 or duration bar 110. In one exemplary embodiment, one or more zones, locations, or the like are defined on the main screens 100 and 200 of the graphical planner, with the zones reserved for displaying virtual events.
With reference to FIG. 7, a virtual event is represented by a grocery cart icon 704. By displaying both virtual events and scheduled events on the same screen, the apparatus of the invention overcomes the common problem of prior art planners, which manage, maintain and display events and tasks separately in a linear format. In another exemplary embodiment, graphic icons corresponding to virtual events may instead move or appear to bounce or float in a predetermined, random or user driven pattern around the screen. Once the actual task corresponding to the virtual event is completed by the user, the user may “capture” the moving graphic icon and indicate its completion, as further described herein. In this manner, the apparatus of the invention provides an enjoyable user experience associated with completion of a task. In one exemplary embodiment, graphic icons corresponding to recurring virtual events may continue to appear on screens corresponding to future dates until the user deletes them.
Thus, a user may create a reminder for a virtual event in a simple two-step process by tapping on the add event button 103 of the a.m. Main screen 100 or the p.m.
Main screen 200, and selecting a desired graphic icon 302 or the generic bubble icon 301. Once a desired graphic icon has been chosen by the user and placed by the software on the screen, the user may then enter additional details regarding the event or task. In one exemplary embodiment, the user taps on the graphic icon to navigate to a details screen 400, as shown in FIG. In one exemplary embodiment, data input fields 402, 403, 404, 405, and 406 are provided on the details screen 400 to allow the user to input information associated with the event or task.
For example, the user may enter the name of the event via data input field 402, the location of the event via data input field 403, the start time of the event via data input field 404, the end time of the event via data input field 405, and/or other details for the event via data input field 406. For example, if the user plans on going to the grocery store from 5:00 to 6:00 on a given day, the user may input the name of the store in data input field 402, the location of the store in data input field 403, the start time of the planned shopping trip in data input field 404, the end time of the planned shopping trip in data input field 405, and the items needed at the store (e.g., milk, eggs, butter, cheese, yogurt and diapers) in the data input field 406. Thus, using the graphical planner, the user can easily create a reminder for something he or she needs to do (such as go to the store), as well as conveniently maintain the details regarding that event or task (such as the list of items needed at the store) all within one convenient application that provides a consistent, easy-to-use user interface. Thus, the apparatus of the invention conveniently manages, maintains and displays information pertaining to events and tasks in a more convenient and user-friendly way than does the prior art planners. In accordance with the general inventive concepts, any number of items of information could be inputted via the data input fields. Furthermore, the data input fields can be given any names or labels.
Any number of data input fields can be used without departing from the spirit and scope of the general inventive concepts. The general inventive concepts also contemplate use of any viable form of user input device, software, logic, or the like. For example, in one exemplary embodiment, software displays a keyboard on a screen of the user's mobile computing device, which allows the user to input information. As another example, in one exemplary embodiment, the user's mobile computing device includes one or more scroll wheels that allow the user to select or otherwise input information such as the start and end times of an event or task.
As another example, in one exemplary embodiment, the computing logic may convert voice input into text or commands. In one exemplary embodiment, the graphical planner may provide one or more computer links to websites containing additional information pertaining to an event or task. Such information may include, for example, walking or driving directions, biographical information about a person the user is meeting, or company or product information pertaining to a scheduled meeting. In another embodiment, information regarding the location of an event may be used to guide the user to the location using global positioning software installed on the user's computing device. A person of ordinary skill in the art will appreciate that the scheduling logic may store information or details associated with events or tasks in memory, and allow the user to access information about past or future events or tasks. In addition, in one exemplary embodiment, the user can select various forms of output for such information.
For example, the user may print screens showing scheduled events or tasks, or share his or her schedule, or information regarding particular events or tasks, using email or other communication technology. In one exemplary embodiment, the scheduling logic provides alerts when an event or task is impending. For example, the user may hear an audible alarm or receive a visual notification of an upcoming event. In one exemplary embodiment, the scheduling logic is operable to provide “push” notification, such that the user receives a notification of an upcoming event or task while running other software applications on his or her computing device. In one exemplary embodiment, the scheduling logic synchronizes events or tasks with events or tasks scheduled by the user utilizing one or more other applications. With further reference to FIG. 4, the details screen 400 may include a save button 410.
By tapping on the save button 410, a user can save the information entered into the data input fields 402, 403, 404, 405, and 406. Tapping on the save button 410 also allows the user to navigate back to the a.m. Main screen 100 or the p.m.
Main screen 200, from which the user navigated. The display on the main screen 100 or 200 will be updated to reflect information entered by the user on the details screen 400, such as the start time or end time of an event. Additionally, if the user chose the generic bubble icon 301, then characters entered by the user into a data input field, such as the name data input field 402, are displayed in the generic bubble on the main screen. For example, in the p.m. Main screen 200 shown in FIGS.
2A and 2B, a generic bubble icon 203 includes characters forming the words “mow lawn,” which correspond to characters entered into the data input field 402 on the details screen 400. Thus, the graphical planner allows the user to use text combined with graphics, as well as graphics alone, to schedule events and set reminders for tasks. In one exemplary embodiment, the user input text is abbreviated or otherwise modified (e.g., font size changed) to better fit within the generic bubble icon. In this manner, the graphical planner also allows the user to create customized icons by enclosing user-supplied text within a generic bubble. In another embodiment, the graphical planner also allows the user to create customized icons by displaying user-supplied text or imagery in connection with a graphic icon. With further reference to FIG. 4, the details screen 400 may include a delete button 409.
By tapping on the delete button 409, a user can delete the event or task and/or its corresponding graphic icon or generic bubble icon that was selected prior to navigating to the details screen 400. In one exemplary embodiment, tapping on the delete bubble 409 causes a warning screen to appear on top of the details screen 400, which allows the user an opportunity to confirm that he or she wishes to delete the corresponding event or task. With reference to FIGS. 1, 2A, and 2B, the a.m. Main screen 100 and the p.m. Main screen 200 may include a traditional calendar screen button 104. By tapping on the traditional calendar screen button 104, the user can navigate to a traditional calendar screen.
A traditional calendar screen 500, according to one exemplary embodiment, is shown in FIG. The traditional calendar screen 500 displays days, weeks, months and/or years in a typical calendar format. In one exemplary embodiment, when the user taps on the traditional calendar screen button 104 on the a.m. Main screen 100 or the p.m. Main screen 200, the user is brought to the traditional calendar screen 500 based on or otherwise including the day from the main screen 100 or 200.
A person of ordinary skill in the art will appreciate that the traditional calendar screen 500 may display a one year block of time, a month block of time, a one week block of time, or any other block of time. The traditional calendar screen 500 may further be customizable by the user. With reference to FIG.
5, the traditional calendar screen 500 includes a back button 502 a, which allows the user to navigate through the displayed calendar going backward in time, and a forward button 502 b, which allows the user to navigate through the calendar going forward in time. Instead of back and forward buttons 502 a and 502 b, a person of ordinary skill in the art will appreciate that other navigation means could be implemented. A scroll bar or, where the user interface is a touch screen, a finger slide mechanism, are a few examples. In one exemplary embodiment, the traditional calendar screen 500 includes event notification dots 504 or other identifying symbols or markings. The presence of an event notification dot 504 indicates that an event or task is scheduled on the corresponding date. This allows the user to readily determine on which days (e.g., for a displayed week, month, or year) events or tasks are scheduled. For example, as shown in FIG.
5, the presence of event notification dots 504 on the squares corresponding to May 24, 25, 26, 27 and 29, 2010 and Jun. 4, 2010 indicates that at least one event or task has been scheduled by the user on each of those dates. With reference to FIG. Main screen 100 and the p.m. Main screen 200 may include a quick view window 600. The quick view window 600 displays information associated with a particular event or task.
For example, the quick view window 600 may display the name, the location, the start time, the end time, and/or associated details of the event or task. The quick view window 600 may be displayed, for example, in response to the user selecting, hovering over, or otherwise interfacing with a graphic icon or the generic bubble icon corresponding to the particular event or task and displayed on the a.m. Main screen 100 or the p.m. Main screen 200.
In one exemplary embodiment, the quick view window 600 is displayed on top of the main analog clock 113 on the corresponding a.m. Main screen 100 or p.m. Main screen 200.
With reference to FIGS. 1, 2A, and 2B, the main screens 100 and 200 may include a complete button 106. The complete button 106 allows the user to indicate that he or she has completed a particular event or task. In one exemplary embodiment, the user can interface with the complete button 106 by selecting the complete button 106 with his or her finger or a stylus in the case of a touch screen, or with an input device such as a keyboard, scroll wheel, or the like formed with or otherwise connected to the user's mobile computing device. By tapping on the complete button 106, the complete button enters an active state for a period of time, which may be predetermined (e.g., 3 seconds), or which may last until the user takes another action. During this active state, the user can then tap on or otherwise interface with a graphic icon or the generic bubble icon displayed on the main screen 100 or 200 to indicate that an event or task corresponding to the selected graphic icon or the generic bubble icon has been completed. In one exemplary embodiment, when the user taps on or otherwise interfaces with the graphic icon or the generic bubble icon, a warning screen is displayed and the user is prompted to confirm that he or she would like to indicate the event or task is complete.
When the user so confirms, the graphic icon or generic bubble icon is then replaced by a completion icon 202 a, such as a star or a popped balloon. In one exemplary embodiment, the completion icon 202 a is a modified form of the graphic icon it is replacing, such as the graphic icon with a different color scheme or a line drawn therethrough. In one exemplary embodiment, instead of displaying a completion icon 202 a, the graphic icon or the generic bubble icon corresponding to the completed task is simply removed from the main screen 100 or 200. The operation of the complete button 106 will now be further described with reference to FIGS. 2A, a graphic icon 202 corresponding to an image of a dog is displayed on the p.m. Main screen 200 as associated with the time slot spanning 4:00 p.m.
On Thursday, May 20, 2010. The user may have, for example, placed the dog icon at this time slot to schedule a trip to the veterinarian for his or her pet. 2B, at the same time slot, there is shown a completion icon 202 a. Railworks 3 Add Ons Free. Thus, the graphical planner allows the user to simply and graphically indicate completion of a previously scheduled event or task. By allowing the user to replace events or tasks with a star or other image having a positive connotation, the graphical planner provides a reward or incentive to complete events or tasks. In one exemplary embodiment, the software of the invention may further activate a sound file at the moment when a graphic icon 202 or generic bubble icon 203 is converted to the completion icon 202 a.
Preferably, the sound file conveys a positive message or mood. By playing a sound file at the moment when a user indicates an event or task's completion, the software of the invention further provides a reward or incentive to complete events or tasks. In another embodiment, upon the user indicating an event or task is complete, the graphical planner may display an animation, such as an animation showing the explosion, destruction, or modification of the associated graphic icon. Such animation may be accompanied by a sound file. In one exemplary embodiment, the graphical planner may automatically indicate an event's completion once the time scheduled for completion of the event has elapsed.
For example, if a meeting is scheduled from 2:00 p.m. To 3:00 p.m., at 3:01 p.m., the scheduling logic may determine the event is complete and replace the corresponding graphic icon with the completion icon 202 a. In one exemplary embodiment, the user can chose whether events are automatically shown as complete upon passage of the scheduled time, or whether events are shown as complete upon the user's affirmative indication of completion. The graphical planner can display events or tasks that overlap in duration. In one exemplary embodiment, when two events or tasks overlap in duration, an overlapping duration bar 701 can be displayed on the a.m.
Main screen 100 or the p.m. Main screen 200. For example, as shown in FIG.
7, the user has scheduled an event from 1 p.m. On May 20, 2010, as represented by a phone graphic icon 702. The user has also scheduled another event from 12:30 p.m. On the same day, as represented by a car graphic icon 703. An overlapping duration bar 701 and connecting line 111 may be used to indicate the time and duration of the second scheduled event, corresponding to a phone graphic icon 702.
In one exemplary embodiment, by selecting the add event icon 103 from the main screen 100 or 200, the user navigates directly to the details screen 400 instead of first choosing a graphic icon or the generic bubble icon from the graphic icon library 300. Once at the details screen 400, the user can tap on the browse icons button 407 to choose the associated graphic icon or the generic bubble icon from the graphic icon library 300. A person of ordinary skill in the art will appreciate that various other modifications to the flow of the navigation are possible, all of which are within the scope of the invention. In another exemplary embodiment, one or more of the screens described above may be combined. For example, the scheduling logic may display the library of graphic icons on the main screen 100 or 200. Depending on the size and other limitations of the user interface and the processing unit, either the entire library of graphic icons or a subset (e.g., “favorites”) may be displayed on the main screen 100 or 200. For example, the library of graphic icons could extend across a portion of one of the screens, such as the main screen 100 or 200, the details screen 400, or another screen.
If the library of graphic icons is displayed on the main screen 100 or 200, there may be no need for an add event button 106. For example, in this embodiment, the user could drag and drop the desired graphic icons from one region on the main screen 100 or 200 to a second region on the main screen 100 or 200, such as a region associated with a particular time on the analog clock 113. In this manner, the user can schedule an event or set a reminder for a task in a one-step process by simply dragging a graphic icon 202 to a region on the main screen 100 or 200. The above description of specific embodiments has been given by way of example. From the disclosure given, those skilled in the art will not only understand the general inventive concepts and attendant advantages, but will also find apparent various changes and modifications to the structures and methods disclosed. For example, the general inventive concepts are not typically limited to any particular interface between a user and the user's mobile computing device. Thus, for example, use of alternative user input mechanisms, such as voice commands, are within the spirit and scope of the general inventive concepts.
As another example, although the embodiments disclosed herein have been primarily directed to a mobile computing device, the general inventive concepts could be readily extended to a personal computer (PC) or other relatively fixed console computers. It is sought, therefore, to cover all such changes and modifications as fall within the spirit and scope of the general inventive concepts, as described and claimed herein, and equivalents thereof.
Patent Citations Cited Patent Filing date Publication date Applicant Title * 11 Aug 1998 23 Nov 1999 Be Free, Inc. Computer program apparatus for determining behavioral profile of a computer user * 20 May 1999 14 Oct 2003 Microsoft Corporation Context-based dynamic user interface elements * 24 Jun 2002 14 Feb 2006 Xerox Corporation System for audible feedback for touch screen displays * 31 Oct 2003 15 May 2007 Rosevear John M Angular twilight clock * 23 Feb 2005 3 Jun 2008 Microsoft Corporation Filtering a collection of items * 28 Mar 2002 31 Aug 2010 Siebel Systems, Inc. System and method for assigning and scheduling activities * 5 Jul 2005 5 Jul 2011 Broadsoft Casabi, Llc System and method for delivering enhanced application services to a user device * 17 Dec 2003 5 Jul 2011 Palo Alto Research Center Incorporated System and method for providing metadata interaction and visualization with task-related objects * 8 Jul 2003 2 Aug 2011 Hewlett-Packard Development Company, L.P. Data browsing method and system for user interface * 8 Sep 2005 27 Sep 2011 Eastman Kodak Company Method and system for browsing large digital multimedia object collections * 28 Feb 2007 1 Nov 2011 Microsoft Corporation Communicating shared electronic calendar modifications * 11 Dec 2009 11 Jun 2013 Broadsoft Casabi, Llc Method and apparatus for a family center * 9 May 2003 11 Nov 2004 Motorola, Inc. Method and device for automatically displaying appointments * 17 Dec 2003 23 Jun 2005 Victoria Bellotti System and method for providing metadata interaction and visualization with task-related objects * 23 Feb 2005 24 Aug 2006 Microsoft Corporation Filtering a collection of items * 4 Sep 2009 25 Mar 2010 Samsung Electronics Co., Ltd.
Contents management method and apparatus * 21 Sep 2009 24 Mar 2011 Avaya Inc. Screen icon manipulation by context and frequency of use * 16 Mar 2011 29 Sep 2011 Samsung Electronics Co. Mobile terminal and icon control method for the same * 17 Mar 2011 6 Oct 2011 Tetsuo Fukumoto Operation console enabling appropriate selection of operational mode by the user, electronic device and image processing apparatus provided with the operation console, and method of displaying information on the operation console. Referenced by Citing Patent Filing date Publication date Applicant Title * 27 Jan 2010 18 Nov 2014 Yahoo! Motion enabled multi-frame challenge-response test 14 Mar 2013 3 Nov 2015 Allscripts Software, Llc Radial view for display of temporal data * 27 Aug 2013 24 Jan 2017 Michael Victor Rodney Foley System and method for planning tasks based on a graphical representation of time * 21 Jan 2014 31 Jan 2017 Google Inc.
Graphical user interface for tracking and displaying user activities over a predetermined time period * 27 Jan 2010 28 Jul 2011 King Simon P Motion enabled multi-frame challenge-response test * 9 Jun 2011 15 Dec 2011 Endress + Hauser Conducta Gesellschaft Fur Mess- Und Regeltechnik Mbh + Co. Kg Method for safe performance of a calibration and/or an adjusting of a measured variable of a measuring device in automation technology, especially in process analysis technology * 20 Jul 2010 26 Jan 2012 Sap Ag Schedule management using linked events * 20 Jul 2012 28 Feb 2013 Samsung Electronics Co., Ltd. Schedule managing method and apparatus * 30 Aug 2012 7 Mar 2013 Samsung Electronics Co., Ltd. Display apparatus and ui providing method thereof * 27 Dec 2012 4 Jul 2013 Asustek Computer Inc. Operating method and portable electronic device using the same * 21 Jun 2012 26 Dec 2013 Sony Network Entertainment International Llc Task management application for mobile devices * 29 Apr 2013 2 Jan 2014 Evernote Corporation Scrollable calendar with combined date and time controls * 14 Aug 2013 20 Feb 2014 Samsung Electronics Co., Ltd. Method and electronic device for editing content * 31 Jul 2013 5 Feb 2015 Oracle International Corporation User interface for tracking health behaviors * 27 Aug 2013 5 Mar 2015 Michael Victor Rodney Foley System and method for planning tasks based on a graphical representation of time * 23 Dec 2014 23 Apr 2015 Huawei Technologies Co., Ltd.
Information Management Method and Terminal * 2 Dec 2014 23 Jul 2015 Daydials, Inc. User interface using graphical dials to represent user activity * 28 Apr 2015 29 Oct 2015 Eduard Blinov Timespiral calendar * 3 Jul 2015 25 Feb 2016 Samsung Electronics Co., Ltd.
Wearable device for displaying a schedule, method of operating the same, and storage medium * 30 Aug 2013 25 Aug 2015 SkyBell Technologies, Inc. Display screen or portion thereof with a graphical user interface * 2 Dec 2013 15 Sep 2015 Medtronic, Inc. Display screen with icon * 2 Dec 2013 15 Sep 2015 Medtronic, Inc. Display screen with icon * 2 Dec 2013 15 Sep 2015 Medtronic, Inc. Display screen with icon * 2 Dec 2013 15 Sep 2015 Medtronics, Inc. Display screen with icon * 9 Dec 2013 29 Mar 2016 Samsung Electronics Co., Ltd.
Display screen or portion thereof with icon * 25 Jun 2014 10 May 2016 Nikon Corporation Display screen with graphical user interface 15 Jan 2015 21 Jun 2016 SkyBell Technologies, Inc. Display screen or a portion thereof with a graphical user interface 15 Jan 2015 5 Jul 2016 SkyBell Technologies, Inc. Display screen or a portion thereof with a graphical user interface 16 May 2014 2 Aug 2016 SkyBell Technologies, Inc. Display screen or a portion thereof with a graphical user interface * 17 Jun 2013 13 Dec 2016 Covidien Lp Display screen with a graphical user interface for compliance monitoring * 12 Dec 2014 23 May 2017 Thomas Lerory Pantelis Display screen with a graphical user interface * 12 Dec 2014 25 Mar 2015 深圳市财富之舟科技有限公司 Display method for alarm clock of mobile phone * 22 May 2013 28 Nov 2013 National Yang-Ming University Cloud-based activity programming * 2 Dec 2014 11 Jun 2015 Daydials, Inc.
User interface using graphical dials to represent user activity * 12 Mar 2015 1 Oct 2015 Koninklijke Philips N.V. Device and method for visualizing tasks * 27 Oct 2015 6 May 2016 Samsung Electronics Co., Ltd. Device and method of managing user information based on image.