WO2021033782A1 - Battery share application - Google Patents

Abstract

Battery Share App is an application based solution, which creates the interface that enables any iOs, android and windows operating system users to share battery life through peer to peer or peer to multi-peer battery share, computer to peer, computer to multi-peer interface and also buy battery life via peer to network provider interface.

Description

Battery Share Application

The BATTERY SHARE App has 3 modes, RECEIVER, DONOR, and NETWORK PROVIDER mode.

INTERFACE INTERACTION DESCRIPTION

PEER 2 PEER INTERFACE

Battery Share App is an interface whereby a mobile phone user (User A) and another willing mobile phone user (User B) will turn on the Battery Share App on their phones.

User A being the receiver will select the RECEIVER OPTION on the App while user B being the donor will select the DONOR OPTION on the App.

User A will search for User B through bar code search or close range search and send SHARE REQUEST to user B, thereafter user B will accept the request.

Once both users are connected, User B will click SHARE.

Any of the users can disconnect at will.

PEER 2 MULTIPEER INTERFACE

This is an interface where phone users 1,2,3 etc. being the receivers and phone user 4 being the donor have the Battery Share App turned on in their phones.

Phone 1, 2 or 3 will select RECEIVER on the App and search for a battery share donor via bar code search or close range search, they will be notified that phone 4 is currently sharing with a user, they can simultaneously send a SHARE REQUEST to phone 4.

Phone 4 in the process of sharing battery with any user can receive more SHARE REQUEST from other users (1, 2, 3 etc.)

Phone 4 will accept the share request and click share to start sharing.

Any of the users can disconnect at will.

COMPUTER 2 PEER INTERFACE

Computer to Peer is an interface whereby a mobile phone user (User A) and a willing computer user X will turn on the Battery Share App on their phone and computer.

User A being the receiver will select the RECEIVER OPTION on the App while computer X being the donor will select the DONOR OPTION on the App.

User A will search for computer X through bar code search or close range search and send SHARE REQUEST to computer X, thereafter computer X will accept the request.

Once both users are connected, Computer X will click SHARE to start sharing.

Any of the users can disconnect at will.

COMPUTER 2 MULTIPEER INTERFACE

This is an interface where phone users 1,2,3 etc. being the receivers and phone computer X being the donor have the Battery Share App turned on in their phones and computer.

Phone 1, 2 or 3 will select RECEIVER on the App and search for a battery share donor via bar code search or close range search, they will be notified that computer X is currently sharing with a user, they can simultaneously send a SHARE REQUEST to computer X.

Computer X in the process of sharing battery with any user can receive more SHARE REQUEST from other users (1, 2, 3 etc.)

Computer X will accept the share request and click share to start sharing.

Any of the users can disconnect at will.

PEER 2 NETWORK PROVIDER INTERFACE

In this interface the phone user A is the RECEIVER while the NETWORK PROVIDER is the DONOR.

Phone A will turn on the Battery Share App on the phone and select SHARE WITH NETWORK PROVIDER.

User A automatically becomes the RECEIVER, and accepts the charges and click SHARE.

DIAGRAM DESCRIPTION

FIGURE 1:

Displays the systematic interaction between the Donor and the Application as described below;

1. Switch ON App

2. Select the Donor mode

3. App sends signal to communicate with any available Battery App to share resources with

4. IF signals are found, available RECEIVERS will display.

5. IF NO signal available, App repeat search query till it finds available RECEIVER

6. Select RECEIVER

7. Waits for RECEIVER to prompt connection

8. Accept Charge Request and Connects to RECEIVER.

9. Sharing of resources commence.

10. END connection

FIGURE 2:

Displays the systematic interaction between the RECEIVER and the Application as described below;

1. Switch ON App

2. Select the RECEIVER mode

3. App sends signal to establish communication with any available Battery App DONOR to share resources with

4. IF signals are found, available DONORS will display.

5. IF NO signal available, App repeat search query till it finds available DONOR

6. Select DONOR

7. Send Charge Request to DONOR, Waits for DONOR to accept request

8. Connects to DONOR once request is accepted and connection is prompted

9. Sharing of resources commence.

10. END connection

FIGURE 3:

Is a graphical description of interface between a DONOR and RECEIVER

FIGURE 4:

Is a class diagram display the DONOR and RECEVIER mode

PROBLEM SOLVED

Battery Share App resolves the problem of phone users who run short of phone power in time of dare need and do not have means or access to charge their phones. Before their phone runs down completely, they can share battery with other willing users around them.

Battery Share App is also handy for individuals who own more than 1 mobile phone but has only 1 charger, in the process of charging one phone with their charger, they can use Battery Share App to simultaneously charge the other phones.

Battery Share App can self-charge a phone, whereby no willing donor is available, phone user can request for battery charge from the Network Provider option and the battery will get recharged from the App.

Claims (2)

1. I Engr. Ehiosun Bright am the inventor and sole owner of Battery Share App.
2. I Engr. Ehiosun Bright via power of attorney authorize Mr Mordecai Ehiosun as my patent applicant.

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