Interface and method for self-correcting a travel path of a physical object

a technology of physical objects and interfaces, applied in the field of interfaces and methods for self-correcting travel paths of physical objects, can solve the problems of affecting the performance of the electronics installed within the projectile, lack of flexibility and continuity in input data and execution commands, and deficiency of communicating parties' true emotions, so as to reduce the amount of violence in video games, lighten the effect, and improve the learning pa

Active Publication Date: 2021-07-01
KASSATLY MICHELLE M +3
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0019]According to one embodiment of the present invention, data is inputted via a gridded user interface that enables a user to effect complete operations (or functions) with a single digit (or instrument, such as a pen) by continuously swiping the digit across the touchscreen, without interrupting the swipe and without removing the digit from the touchscreen.
[0024]An additional feature of the present invention is that it enables the narrowing of the search result. As an example, if a user station receives several messages in addition to the messages saved on his / her user station, the user might need to conduct a search for the most appropriate messages to forward to other users or to view. In this case, the user station provides a random search function that can be narrowed down by successive steps. As an example, the user can enter or select the desired search terms, and then select a random search button on the user interface to conduct the first random search. This first random search will use the search terms and in addition, use a Gaussian spatial distribution to select nearby results. A second random search may be similarly conducted on the first random search result in order to further narrow down the search result. Similar successive random searched may be conducted until the desired convergence limits or parameters are attained, at which time, the final search result is attained. This search method may be used in games or applications that used random selection, such as lottery, dating applications, social networking, etc.

Problems solved by technology

However, no matter how communicative and entertaining these emojis are, they remain deficient in that they do not necessarily reflect the communicating party's true emotions.
However, all of these input methods lack the flexibility and continuity in inputting data and executing commands whether sequentially or out of order.
Winds aloft present one form of disturbance in that crosswinds can send a projectile left or right relative to the intended target, and head and tail winds can propel the projectile too far or too short of the intended target.
In addition to external dynamics, there are issues that affect the performance of the electronics installed within the projectiles.
For inertial sensors, the severe gun-launch environment often produces permanent bias shifts in the measured acceleration of the projectiles.
Additionally, the high spin rate of the stabilized projectiles may also affect the readings on a sensor, by adding spurious centrifugal forces to the sensor that are not, in reality, affecting the projectile.
However, incorporating guidance into artillery rounds increases the cost of the entire system.
However, should the electronics on-board the projectile be duds, then the projectile will fly past the intended target and potentially cause collateral damage.

Method used

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  • Interface  and method for self-correcting a travel path of a physical object

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Embodiment Construction

[0052]FIG. 1 depicts an overall view of an exemplary social network setting 10 in which the present invention operates according to one embodiment. The exemplary setting 10 illustrates a plurality of user stations 1, 2, 3, 4, . . . , N, . . . , W that communicate whether remotely over a network such as the Internet, or via direct communication. Although the user stations 1, 2, 3, 4, . . . , N, . . . , W can be functionally similar or identical, their functions can be different, such as for instance, one user station can include a smart phone, while another user station can include a server or another communication device.

[0053]In the illustrated scenario, a user 1 (also referred to herein as user station 1 and referenced by the numeral 100) concurrently sends a message M1 along with a query Q(1, 2) to user station 2 (also referenced by the numeral 200), along with the same message M1 (or alternatively a different message) to user station 3 (also referenced by the numeral 300).

[0054]...

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Abstract

An interface for use on board a physical object, such as a vehicle, a projectile, a drone, etc., that travels autonomously under the influence of undetermined external forces that affect its travel path. During travel, the interface collects travel data, and automatically and dynamically executes a sequence of executable commands or functions using the collected data, in order to adjust deviations of the travel path relative to a predetermined travel path. The interface stores the travel data as a graphical data layer, which is superposed onto a graphical function layer for determining the travel path deviation and for dynamically executing corrective commands. The graphical function layer includes a graphical executable grid that defines a plurality of executable outlines or cells. Different executable commands or functions are embedded within the plurality of executable outlines or cells. The interface autonomously selects the desired sequence executable commands based on the location of the physical object along travel path and its deviation from the predetermined travel path. Such autonomous selection of the sequence of executable commands is effected by the sequential graphical intersections of the graphical data layer with the executable outlines or cells of the graphical function layer. Each such graphical intersection executes a command that is embedded with the intersected executable outline using the data embedded within the intersected graphical data representation. An autonomous self-correcting mechanism responds to the execution of the commands and redresses the travel path of the physical object. The interface may be used in a multi-dimensional space.

Description

CROSS-REFERENCE TO RELATED APPLICATION[0001]This application is a continuation-in-part of co-pending U.S. patent application Ser. No. 15 / 427,966, filed Feb. 8, 2017, titled “Social Medium, User Interface, And Method For Providing Instant Feedback Of Reviewer's Reactions And Emotional Responses,” which is incorporated herein in its entirety by this reference.FIELD OF THE INVENTION[0002]The present invention relates in general to the field of inputting, selecting, and executing operations and commands on a computing device or a user interface, and in particular to a system, social medium, user interface, and associated method for providing instant feedback of reviewer's reactions and emotional responses.BACKGROUND OF THE INVENTION[0003]The field of social media has pervaded our lives in an unprecedented way. It enables us to communicate instantly for various purposes, such as to execute a business transaction or simply to chat. A sender can, for example, transmit a text message and ex...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): G06F3/0484
CPCG06F3/04847G06F3/04883G06F3/04886H04L51/10G06F3/0304G06F3/0482G06F3/04842G06F2203/04803G06F2203/011G06F3/011H04L51/216H04L51/42H04L51/52G06V40/166
Inventor KASSATLY, MICHELLE MKASSATLY, DANIELLE MKASSATLY, GABRIELLE MKASSATLY, L. SAMUEL A
Owner KASSATLY MICHELLE M
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