MUSIC CONTROLLED MULTI COLORED LED TOWERS WITH DANCING WATER FOUNTAIN

Project Title

MUSIC CONTROLLED MULTI COLORED LED TOWERS WITH DANCING WATER FOUNTAIN

Project Area of Specialization Internet of ThingsProject Summary

This design boosts the listener's songs and sound hearing experience by not only putting but also linking optical to the songs and sound. The design shows and evaluates songs and sound being played back and modifications LIGHT-EMITTING DIODEs to give a voice-optical experience. This data describes the materials and known light-emitting diode utilized to perform a proof of phenomena for a Wi-Fi and moveable songs and sound responsive LIGHT EMITTING DIODE light system model. This report shows every process of the improvement of songs and sounds optical, initiating with the implementation, followed by the realization and then evaluation. The important objective is to have to know the light-emitting diode of how the listener on path characteristics experience can be boosted through songs and sound optical. With songs and sound optical is possible to give an improved analysis of the songs and sound feelings constructing an intensive environment in the on path songs and sound characteristics, which boosts the link between the on path songs and sound and the listener through optical. These optical have to be relevant to the on-path songs and sound, furthermore have to fast feedback to on path songs and sound changes and initiate novelty into the optical. The link between songs and sound and optical is the focus of this design, in order to improve the relationship between the on-path characteristics and the audience.

Project Objectives

Our project’s objective is to create a reverse vehicle park manager with Micro Controller (Arduino) Uno-based microcontroller. This tool is equipped with 2 different devices: HC-SR 04 ultrasonic and audio Shield. The ultrasonic devices are embedded at two points at the rear of the vehicle. Audio Shield is utilized to run the voices that comprise audio. Audio Shield will produce sounds that help operators to reverse, slow, or stop. This park manager is also comprised of an 18X-2 light-emitting diodes display which works to show the range in-between the vehicle and the object behind it. In this study, Micro Controller (Arduino) Uno-based vehicle parking assistant was constructed and equipped with a voice assistant as the help and a screen displaying the distance between the vehicle and objects behind. Two ultrasonic devices HC-SR 04 as a distance reader were embedded at 2 points at the back of the vehicle. Sound as the help utilize MP3 Shield module which played mp3-like sounds. The 18X-2 liquidity crystal display screen was utilized to show the range between the back of the vehicle and objects beyond it

Project Implementation Method

After considering the above stated two approaches it is decided to use the second and more advantageous approach in which we can connect different sensors as input and the led rope and pumps as output and can give instructions in the program about how to control the system based on input signal values. This technique proves to be more successful in the implementation of the stated system and gave the required results.

Benefits of the Project

However, it should be noted that various improvements can still be performed. This may be nonrealistic for the 2 different portions to be in one all-inclusive model. It is based upon the selected platform, but various utilized scenarios can take advantage of the design being only one compact model. The user portion is not presently 100% efficient the reason is that it's nonspecific operational time as mentioned before. With that, not for now in utilized, maybe for some intellectual and thoughts for an incoming era operation and usage allocating with the normal range of sound energy and the maximum range of sound energy. Our design will be helpful for increasing more ways of optical. The design should also advantage of its own cell phone application instead of operating non-automatic. If the model converts to one compact model, it could be taken on the go-to songs and sound festivals or other places without the required to change the message treating program on a personal computer. The wave finding approach is now a day is important too. Another enhancement should be making a systematic approach that could use to alternate types of music.

Technical Details of Final Deliverable

Working on the project based on the programming that is done within Arduino. The Arduino first select the pattern depending on the position of the button and then starts taking sound values from the sensor and then converts those value to the light values and fed them to the LEDs. The much more intense sound will light up more LEDs and the lower intensity sound will light up lesser LEDs. Also, the color of the strip will keep on changing depending on the values of sound.

Final Deliverable of the Project Hardware SystemCore Industry MediaOther IndustriesCore Technology Internet of Things (IoT)Other TechnologiesSustainable Development Goals Industry, Innovation and InfrastructureRequired Resources

Item Name	Type	No. of Units	Per Unit Cost (in Rs)	Total (in Rs)
			Total in (Rs)	49301
Micro-controller (Arduino) Nano	Equipment	5	2000	10000
Microphone sensor	Equipment	5	300	1500
WS2811 LIGHT EMITTING DIODE rope	Equipment	12	1000	12000
LIQUID motors	Equipment	12	1000	12000
Wires	Equipment	2	250	500
Resistors	Equipment	30	10	300
Others (Base and customization )	Equipment	1	3000	3000
miscellaneous	Equipment	1	10001	10001