Automatic Material Flow Control Using Arduino

Team Member Are :
Deepthi Rani M
Naveen B L
Santhosh G
SrinivasKamath S

Project Guide: Dr Sheryl Grace Colacom, Department of Electrical and Electronics Engineering Abstract: Automatic material flow control mainly deals with the control of additional material depending on the quantity of test material used. This is basically used in manufacturing industries where manufacturing of a particular product makes use of two or more raw materials. In such cases the quantity of additional agent must be in accordance with the quantity of test material. To achieve economy and efficiency one needs to make this mixing automated. In this project a prototype has been developed for automatic material flow control. The quantity of test materialis sensed using photosensitive LDR circuit. Based on the sensor value the microcontroller sends a signal to the driver circuit which controls the flow of additive material through solenoid mechanism.For demonstration purpose the test material and additive materials are taken in milligrams. Unique Features: • Most effective if incorporated in small scale industries • Less maintenance cost & low initial investment • Requires less manpower for operation • Can be modified easily for sorting materials on conveyors

Automatic Temperature Controlled Greenhouse

Team Member Are :
Glenn D’Souza
Likhitha
Nikitha Ullal
Preethica F

Project Guide: Mr Deepesh Kanchan, Assistant Professor, Department of Electrical and Electronics Engineering Abstract: The project, as its name suggests, is a greenhouse whose temperature can be controlled automatically, depending on the type of plants grown. Plants thrive in a narrow temperature range (that varies from plant to plant), and slight deviations from the normal temperature range can ruin the crops. In our project, if the temperature goes lower than the preset temperature range, incandescent light bulbs come on, which aids in heating the atmosphere within the greenhouse. Whereas if the temperature exceeds the temperature range, the cooling system turns on. The cooling system used in our project works on the principle of evaporative cooling. Project is suitable for areas with highly unstable weather conditions. Unique Features: • Automatic controlled; does not rely on human • Simple and efficient • Can be implemented for any climatic conditions, as it is not restricted for any particular temperature range.

ISWEEP Smart House System

Team Member Are :
Arunjith K C
Nabeel Abdul Sattar
Aiswarya Sadanandan

Project Guide: Mr Sathisha. K, Assistant Professor, Department of Electrical and Electronics Engineering Abstract: Automation is part and parcel of this new change in the technology. Smart house system improves the standard of life, eases the stress and strain which arises due to daily house hold problem. With advancement of technology, things are becoming simpler and easier for all. Smart systems are preferred over manual system. The proposed project deals with prototype implementation in the smart house system using sensors and microcontroller. The system consists of rectifier unit, regulator IC’s, microcontroller units, relay unit, sensor circuits (water level indicator, temperature sensor, gas sensor, moisture sensor, motion sensor).These sensors detect change in physical quantity and transforms this into corresponding change in voltage. Unique Features: • Intelligent system: It is its ability to tie diverse electronic devices together so they can perform as one unified system. • Self remote access: we can automatically control the proposed system without making a house call, which is always cheaper and more convenient. • Water conservation: This special ability of the system, automatically senses predefined water level, thereby saving wastage of water. • Expandability: It is important that a home automation system can be easily expanded both vertically to incorporate additional products and horizontally to support additional rooms. • Energy efficient: One of the important topics in the consumer media is energy conservation. It can help save energy by switching off electronic devices automatically . • Protective system: It has appropriate back-up protection and it can save life.