WO2020251486A1 - A mobile demonstration system and method - Google Patents

Abstract

In particular, the invention relates to a mobile demonstration system and method comprising transport of various demonstration equipment by unmanned aerial vehicles and holding them in the air during the demonstration.

Description

A MOBILE DEMONSTRATION SYSTEM AND METHOD TECHNICAL FIELD

The invention relates to demonstration systems used in organizations such as parties, meetings, activities etc.

In particular, the invention relates to a mobile demonstration system and method comprising transport of various demonstration equipment by unmanned aerial vehicles and holding them in the air during the demonstration.

PRIOR ART

Todays, various demonstration and recording equipment are used in organizations. In the state of the art, a stage is created by positioning and installing the demonstration equipment before the demonstration. Problems such as determining the appropriate location for stage setting, obtaining permission for the installation and installation process are especially inefficient in terms of cost in short-term demonstrations. The state of the art also includes mobile stage caravans and heavy vehicles designed for use in such situations. Although the installation process has been overcome with these vehicles, the same problems with permission for location and positioning are constant. In addition, it is not possible for such vehicles to physically access to anywhere requested.

As a result, the problems said above, which cannot be solved in the light of the state of the art, have made it necessary to make an innovation in the relevant technical field.

BRIEF DESCRIPTION OF THE INVENTION

The present invention relates to a mobile demonstration system and method, which overcomes the aforesaid disadvantages and brings new advantages to the related technical area.

The main purpose of the invention is to provide a system and method that allows demonstration equipment to be held aloft by unmanned aerial vehicles, thus prevents occupying space on the ground of the demonstration equipment. Another purpose of the invention is to develop a system and method that allows demonstration in any area where unmanned aerial vehicles can fly by means of carrying the demonstration equipment by the unmanned aerial vehicles.

Another purpose of the invention is to provide a system that eliminates the problems of stage setting, permission of location and positioning encountered in the state of the art and provides benefits in terms of costs.

In order to realize all of the aforesaid purposes and the ones that will become apparent by the detailed description given below, the present invention is a mobile demonstration system which eliminates the problem of stage setting and stage positioning problems for organizations where demonstration for an audience is requested. Accordingly, the system comprises;

• an equipment kit, to ensure that the demonstration is performed and managed; comprising o demonstration equipments for performing visual and / or audio demonstration, o recording equipments for recording audience reactions during the demonstration, o central control unit managing the demonstration equipments and recording equipments by applying the instantaneous demonstration data received wirelessly and / or the preloaded demonstration program, o battery supplying energy to the demonstration equipments, recording equipments and central control unit,

• at least one unmanned aerial vehicle carrying the said equipment kit and enabling it to stand aloft during the demonstration,

• control system managing the demonstration by transmitting the instructions received from an administrator to the central control unit wirelessly, enabling synchronized controlling of the unmanned aerial vehicles remotely and comprising a control algorithm which calculates the positions at which the unmanned aerial vehicles should be in order to ensure that the said equipment kit is carried safely. At the same time, the invention is a mobile demonstration method that eliminates the problems of stage setting and stage positioning in organizations where required to perform in front of audiences. Accordingly, the method comprises the process steps of;

• introducing the dimensions of the equipment kit which provides the demonstration and the point from which each unmanned aerial vehicle holds the equipment kit to the control system comprising the control algorithm that enables managing unmanned aerial vehicles by the administrator,

• calculating the distance of unmanned aerial vehicles relative to each other by using the information introduced by the administrator through the control algorithm in the control system,

• activating the system through the control system and establishing wireless connections with unmanned aerial vehicles through the control algorithm of the control system,

• reading the positions of unmanned aerial vehicles from flight data by the control system through the control algorithm,

• calculating required positions of the unmanned aerial vehicles by using the flight data read through the control algorithm and providing the first correct positioning by instructing flight commands to make the necessary maneuvers, by the control system,

• establishing wireless bi-directional connection with the control system by the central control unit in the equipment kit carried by unmanned aerial vehicles,

• implementing a preloaded demonstration program and / or instantaneous demonstration data coming from the control system by means of demonstration equipment which enables the demonstration to be performed visually and / or audibly with the energy received from a battery, by the central control unit,

• recording and / or transmitting the recording data transmitted from the recording equipments which enables the recording of audience reactions, to the control system with the energy supplied from the battery in the equipment set, by the central control unit.

The structure of the present invention and its advantages with further elements will become clear based on the drawings described below. BRIEF DESCRIPTION OF DRAWINGS

Figure 1 shows a general schematic view of the claim of our invention.

Figure 2 shows a detailed schematic view of the equipment set used in our invention.

REFERENCE NUMBERS

100 Control system

101 Control algorithm

200 Unmanned aerial vehicle

300 Equipment kit

330 Battery

340 Central control unit

350 Demonstration equipment

351 Display unit

352 Audio unit

353 Projector

354 Effects machine

360 Recording equipment

361 Video recorder unit

362 Audio recorder unit

Audience

Y: Administrator

KV: Recording data

GV: Demonstration data

UV: Flight data UK: Flight command

DETAILED DESCRIPTION OF THE INVENTION

In the herein detailed description, the innovation of the invention is described by means of examples, only for a better understanding of the subject matter, without imposing any limitations. Our invention is a mobile demonstration system that eliminates the problems of stage setting and stage positioning in organizations where it is required to perform in front of audiences (I). Figure-1 shows a general schematic view of the system of our invention. Accordingly, the system comprises; an equipment kit (300) to enable that the demonstration is performed and managed; comprising demonstration equipments (350) performing visual and / or audio demonstration, recording equipments (360) recording audiences (I) reactions during the demonstration, central control unit (340) managing the demonstration equipments (350) and recording equipments (360) by applying the instantaneous demonstration data (GV) received wirelessly and / or the preloaded demonstration program and battery (330) which supplies energy to demonstration equipments (350), recording equipments (360) and central control unit (340); at least one unmanned aerial vehicle (200) carrying the said equipment kit (300) and enabling it to stand aloft during the demonstration; control system (100) managing the demonstration by transmitting the instructions received from an administrator (Y) to the central control unit (340) wirelessly, enabling synchronized controlling of the unmanned aerial vehicles (200) remotely and comprising a control algorithm (101 ) which calculates the positions at which the unmanned aerial vehicles (200) should be in order to ensure that the said equipment kit (300) is carried safely.

In the preferred embodiment of the invention, the said equipment kit (300) preferably comprises four main parts.

Central Control Unit (340): A circuit or microcomputer with wireless communication, I/O and processor. It provides a bi-directional connection between the control system (100) and demonstration equipments (350), recording equipments (360).

Battery (330): Power supply to provide energy to the central control unit (340), demonstration equipments (350) and recording equipments (360) located in the equipment kit (300).

Demonstration equipments (350): Equipments used for demonstration function. It comprises a display unit (351 ) for video demonstration, audio unit (352) for audible functions, projector (353) for performing demonstration with projection, and effects machine (354) which enables demonstrate special effects in the demonstrating area. Effects machine (354); controls effects such as volcano, fireworks, laser show, light show etc. The effects machine (354) is controlled by the central control unit (340). The display unit (351 ) used in the preferred embodiment of the system is characterized as a screen, the audio unit (352) is characterized as a speaker.

Recording equipments (360): Equipments used to record the audiences (I) reaction to the demonstration. It comprises the image recording unit (361 ) for video recording and the audio recording unit (362) for audio recording. It is activated by the central control unit (340). The information received is transmitted to the central control unit (340). In the preferred embodiment of the system, the said image recording unit (361 ) is characterized as a camera, the said sound recording unit (362) is characterized as a parabolic microphone.

The control system (100), in the preferred embodiment of the system, is characterized as a tablet or computer. It enables to control of the show by the administrator (Y) through the control algorithm (101 ), which runs on the control system (100). The control algorithm (101 ) has two tasks.

Controlling of Unmanned aerial vehicle (200): analyzes positions of unmanned aerial vehicles (200) by reading flight data (UV) from unmanned aerial vehicles (200). Calculates the locations at which unmanned aerial vehicles (200) should be positioned in order that the equipment kit (300) carried by the unmanned aerial vehicles to be carried safely and facing the audience (I). It sends flight command (UK) to unmanned aerial vehicles (200) according to calculated new location information.

Controlling of Demonstration: starts and ends the demonstration and / or recording operations by communicating wirelessly with the central control unit (340).

In the system, the size and type (LED display, LCD display etc.) of the display unit (351 ) may vary according to the size of the demonstration. Therefore, more than one unmanned aerial vehicle (200) is required to move synchronously when the equipment kit (300) cannot be carried with a single unmanned aerial vehicle (200). On the control algorithm (101 ) runs in the control system (100), the dimensions of the equipment kit (300) are introduced, and each unmanned aerial vehicle (200) is individually defined from which point it holds the equipment. Using this information, the control algorithm (101 ) calculates the distance at which unmanned aerial vehicles (200) should be on x, y, z axes relative to each other. By activating the system, the control algorithm (101 ) communicates wirelessly with unmanned aerial vehicles (200) using the APIs of unmanned aerial vehicles (200). It reads the instantaneous positions of unmanned aerial vehicles (200) from flight data (UV). It calculates the required positions and gives flight commands (UK) to make the necessary maneuvers. After the first correct positioning of the unmanned aerial vehicles (200) relative to each other is achieved, the administrator (Y) through the control algorithm (101 ) can maneuver all unmanned aerial vehicles synchronously. At this process, the administrator (Y) can give synchronized commands to all unmanned aerial vehicles (200) via the control algorithm (101 ) runs over the control system (100).

Claims

1. A mobile demonstration system that eliminates the problems of stage setting and stage positioning in organizations required to perform in front of audiences (I), characterized by comprising

• an equipment kit (300) to enable that the demonstration is performed and managed; comprising o demonstration equipments (350) performing visual and / or audio demonstration, o recording equipments (360) recording reactions of audiences (I) during the demonstration, o central control unit (340) managing the demonstration equipments (350) and recording equipments (360) by applying the instantaneous demonstration data received wirelessly and / or the preloaded demonstration program, o battery supplying energy to the demonstration equipments (350), the recording equipments (360) and the central control unit (340),

• at least one unmanned aerial vehicle (200) carrying the said equipment kit (300) and enabling equipment kit (300) to stand aloft during the demonstration,

• control system (100) managing the demonstration by transmitting the instructions received from an administrator (Y) to the central control unit (340) wirelessly, enabling synchronized controlling of the unmanned aerial vehicles (200) remotely and comprising a control algorithm (101 ) which calculates the positions at which the unmanned aerial vehicles (200) should be in order to ensure that the said equipment kit (300) is carried safely.

2. The mobile demonstration system according to Claim 1 , characterized in that the said unmanned aerial vehicle (200) is a drone.

3. The mobile demonstration system according to Claim 1 , characterized in that the said central control unit (340) is a circuit/microcomputer with I/O and processor.

4. The mobile demonstration system according to Claim 1 , characterized in that the said demonstration equipments (350) comprise at least one display unit (351 ) which enables the demonstration to be performed visually.

5. The mobile demonstration system according to Claim 4, characterized in that the said display unit (351 ) is an LED screen / LCD screen.

6. The mobile demonstration system according to Claim 1 , characterized in that the said demonstration equipments (350) comprise at least one audio unit (352) which enables the demonstration to be performed audibly.

7. The mobile demonstration system according to Claim 6, characterized in that the said audio unit (352) is a speaker.

8. The mobile demonstration system according to Claim 1 , characterized in that the said demonstration equipments (350) comprise a projector (353) which enables the demonstration to be performed by projection.

9. The mobile demonstration system according to Claim 1 , characterized in that the said demonstration equipments (350) comprise an effects machine (354) which enables demonstrating special effects in the demonstrating area.

10. The mobile demonstration system according to Claim 9, characterized in that the said effects machine (354) is capable of performing volcano/fireworks/laser/light shows.

11. The mobile demonstration system according to Claim 1 , characterized in that the said recording equipments (360) comprise video recording unit (361 ) which enables recording the reactions of the audiences (I) to the demonstration visually.

12. The mobile demonstration system according to Claim 1 1 , characterized in that the said video recording unit (361 ) is a camera.

13. The mobile demonstration system according to Claim 1 , characterized in that the said recording equipments (360) comprise audio recording unit (362) which enables recording the audible reactions of the audiences (I) to the demonstration.

14. The mobile demonstration system according to Claim 1 , characterized in that the said control system (100) is a tablet/computer.

15. A mobile demonstration method that eliminates the problems of stage setting and stage positioning in organizations where required to perform in front of audiences (I), characterized by comprising the process steps of

• introducing the dimensions of the equipment kit (300) which provides performing the demonstration and the point from which each unmanned aerial vehicle (200) holds the equipment kit (300) to the control system (100) comprising the control algorithm (101 ) that enables managing unmanned aerial vehicles (200) by the administrator (Y),

• calculating the distance of unmanned aerial vehicles (200) relative to each other by using the information introduced by the administrator (Y) through the control algorithm (101 ) in the control system (100),

• activating the system through the control system (100) and establishing wireless connections with unmanned aerial vehicles (200) through the control algorithm (101 ) of the control system (100),

• reading the positions of unmanned aerial vehicles (200) from flight data (UV) by the control system (100) through the control algorithm (101 ),

• calculating required positions of the unmanned aerial vehicles (200) by using the flight data (UV) read through the control algorithm (101 ) and providing the first correct positioning by instructing flight commands (UK) to make the necessary maneuvers, by the control system (100)

• establishing wireless bi-directional connection with the control system (100) by the central control unit (340) in the equipment kit (200) carried by unmanned aerial vehicles (200),

• implementing a preloaded demonstration program and / or instantaneous demonstration data (GV) coming from the control system (100) by means of demonstration equipment (350) which enables the demonstration to be performed visually and / or audibly with the energy received from a battery (330), by the central control unit (340),

• activating recording equipments (360) which enables the recording of audience (I) reactions, recording and / or transmitting the recording data (KV) to the control system (100) with the energy supplied from the battery (330) in the equipment set (300), by the central control unit (340).

16. The mobile demonstration method according to Claim 15, characterized by comprising the process step of calculation of the distance of unmanned aerial vehicles (200) relative to each other in x, y, z axes by using the information introduced by the administrator (Y) through the control algorithm (101 ) in the control system (100).

17. The mobile demonstration method according to Claim 15, characterized by comprising the process step of establishing wireless connection using API’s of the unmanned aerial vehicles (200) by means of the control algorithm (101 ) in the control system.

18. The mobile demonstration method according to Claim 15, characterized by comprising the process step of maneuvering all unmanned aerial vehicles (200) in synchrony through the control algorithm (101 ) by the administrator (Y) after establishing first correct positioning of the unmanned aerial vehicles (200),

19. The mobile demonstration method according to Claim 15, characterized by comprising the process step of performing a preloaded demonstration program and / or instantaneous demonstration data (GV) acquired through the control system (100) visually by means of the display unit (351 ) which allows the demonstration to be performed visually by the central control unit (340).

20. The mobile demonstration method according to Claim 15, characterized by comprising the process step of performing a preloaded demonstration program and / or instantaneous demonstration data (GV) acquired through the control system (100) audibly by means of the audio unit (352) which enables the demonstration to be performed audibly, by the central control unit (340).

21. The mobile demonstration method according to Claim 15, characterized by comprising the process step of performing a preloaded demonstration program and / or instantaneous demonstration data (GV) acquired through the control system (100) by means of the effect machine (354) which enables the demonstration to be performed as a volcano/fireworks/laser show/light show, by the central control unit (340).

22. The mobile demonstration method according to Claim 15, characterized by comprising the process step of performing a preloaded demonstration program and / or instantaneous demonstration data (GV) acquired through the control system (100) by means of the projector (353) which enables the demonstration to be performed as a projection, by the central control unit (340).

23. The mobile demonstration method according to Claim 15, characterized by comprising the process step of activating the video recording unit (361 ) which enables visually recording of audience (I) reactions and recording and / or transmitting the recording data (KV) to the control system (100) by the central control unit (340) with the energy received from the battery (330) in the equipment set (300).

24. A mobile demonstration method according to Claim 15, characterized by comprising the process step of activating the audio recording unit (362) which enables audible recording of audience (I) reactions and recording and / or transmitting the recording data (KV) to the control system (100) by the central control unit (340) with the energy received from the battery (330) in the equipment set (300).