FYP Batch SUGOI & SHINKEN FYP JD 2025 #17

 

FYP Batch SUGOI & SHINKEN FYP JD 2025 #17 --> MOHD ISMAIL BIN JUSOH

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student :  ADAM BIN NURASHID

title : Firefighting Robot with Powder Spraying Mechanism and Wireless Control via 2.4GHz ExpressLRS Module.

objectives :

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student : UMAR FAIZ BIN FEIZAL MAHATHIR

title : SEMI AUTOMATIC TOKEN OPERATED GARMENT FOLDING SYSTEM USIBG ARDUINO AND STEPPER MOTOR

objectives :

1. To develop a system that activates the garment folding mechanism upon the insertion of a valid token.

2. To integratd Arduino-controlled DC Motors and mechanical flaps to fold garments efficiently with minimal human intervention.

3. To integrate sensors and feedback mechanism to detect errors and prevent jamming should it occur.

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student : MUHAMMAD HAZIM BIN ROSLI

title : Automatic futsal line marking machine via arduino mega 2560 with brushed DC motor

objectives :

1. To build a mobile robot capable of autonomously navigating a predefined futsal Court path.

2. To develop an automated spraying mechanism that activates only during line marking. 

3. To integrate electronic control systems doing arduino for synchronized motion and spraying operation.

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student : RAFI'UDDIN BIN ABD LATIF

title : EXCAVATOR BOOM ACTUATOR SYSTEM USING LINEAR MOTOR CONTROL VIA ARDUINO MEGA 2560

objectives :

1. To develop an excavator (boom, stick, bucket) prototype model

2. To integrate wireless communication between controller and prototype model

3. To develop software algorithm for controlling the prototype model according to the input of the joystick

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student : MUHAMMAD HAZIQ IQBAL BIN ZULKIFLI

title :  MOTORCYCLE RACK WITH AUTOMATED FOLDING MECHANISM USING ARDUINO UNO AND 12v BRUSHED DC REDUCTION MOTOR

objectives :

1. Develop a motorcycle rack integrated with a folding mechanism powered by a 12v brush DC reduction motor to enhance convenience and functionality.

2. Integrate an automated motorcycle rack folding and unfolding process through a predefined sequence, controlled via arduino uno.

3. To build a safety mechanism incorporating 2 push button to enhance operational safety and accessibility for end users.