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Anonymous1771620934
02-20 21:53
Model Name
toll booth system 3d model
Tags
architecture
rendering
realistic
Prompt
A complete educational scale model of a toll booth system on a wooden base. Straight two-lane road across base. Small toll booth cabin on right side of road. Long barrier arm across both lanes attached to servo motor on booth, lowered position. Small toy car stopped at barrier. Four tall thin posts with small spheres on top along road: two on each side. Small push button next to booth. Inside booth visible: Arduino board, breadboard with wires, sound sensor, small LED, resistors, 9V battery. Wires connecting components on base surface. Simple geometric shapes, clean, colorful, educational. THE SCENE: - A straight two-lane road running horizontally across the model, with white lane markings and gray asphalt texture. - A TOLL BOOTH STRUCTURE (small cabin) positioned ON THE RIGHT SIDE OF THE ROAD, with a window facing the road. - A LONG BARRIER ARM (toll gate) extending across both lanes, attached to an SG90 360° SERVO MOTOR mounted on the toll booth. The barrier is in a LOWERED POSITION (blocking the road) to show the mechanism clearly. - A SMALL TOY CAR (red or blue) stopped at the barrier, waiting to pass, adding realism and scale. - FOUR DECORATIVE LED POSTS along the road: two on each side, evenly spaced (left side: one near the car, one further back; right side: one near the toll booth, one beyond it). Each post has a small LED on top, GLOWING softly (white or yellow light). - A CONTROL INTERFACE (push button) mounted on a small panel next to the toll booth or on the booth itself, with a wire connecting to the Arduino. INSIDE THE TOLL BOOTH (cutaway or open side to reveal electronics): - An Arduino Uno Mini board (blue PCB with silver USB port) mounted on a small platform. - A PROTOBOARD with colorful jumper wires (red, black, yellow, blue) connecting to: - The SG90 360° SERVO MOTOR (mounted on the booth exterior, connected to the barrier arm). - A SOUND SENSOR MODULE (for clap-activated lamp) mounted on the interior wall, with a visible microphone. - A SMALL LED (the clap-activated lamp) inside the booth, with a resistor in series, glowing or ready to glow. - The CONTROL BUTTON (wires running from the booth to the button panel). - The FOUR DECORATIVE LED POSTS (wires running underground or along the base). - Multiple RESISTORS visible in series with the LEDs. - A 9V BATTERY with red/black snap connector sitting in a corner, with wires leading to the Arduino power jack. - ALL CONNECTIONS are clearly visible: resistors, wires neatly organized, components labeled. ELECTRONICS DETAILS: - Every component is realistically rendered: text on Arduino ("Arduino Uno" visible), gold pins, copper traces on sensors, colored insulation on wires. - The LEDs on posts are GLOWING softly. - The clap-activated lamp LED is distinguishable from decorative LEDs (maybe a different color or position). LIGHTING: - Studio lighting from multiple angles with soft shadows. - The LEDs are illuminated (warm white or cool white). - Clean light gray gradient background. LABELS: - Subtle labels integrated next to each component: "Arduino Uno", "SG90 Servo", "Sound Sensor (Clap Lamp)", "Clap LED", "Control Button", "Decorative LEDs", "Resistors", "9V Battery", "Barrier Arm", "Toll Booth", "Toy Car". STYLE: - Complete model view, hyperrealistic, educational diagram aesthetic, 8K resolution, depth of field slightly blurred at edges, C4D render quality, bright and clear atmosphere perfect for physics project presentation. EXTERIOR FEATURES: - Modern house facade with windows, doors, and a DRIVEWAY leading to a PARKING AREA in front of the house. - An AUTOMATIC GATE at the entrance of the driveway, connected to an SG90 360° servo motor mounted on a post next to the gate. The gate is partially open to show the mechanism. - A small garden area with green texture. - The parking area has enough space for a toy car (visible or implied) and is marked with light gray pavement. INTERIOR GROUND FLOOR (fully exposed through cross-section): - LIVING ROOM: An Arduino Uno Mini board (blue PCB with silver USB port) mounted on a small platform. Colorful jumper wires (red for power, black for ground, yellow for signals) run from the Arduino to: - An HC-SR04 ULTRASONIC SENSOR positioned near the front wall, pointing toward the gate to detect approaching objects. - The SG90 360° SERVO MOTOR (connected to the gate mechanism). - A SOUND SENSOR MODULE (for clap activation) mounted on the living room wall, with a visible microphone. - MULTIPLE LEDs on the living room ceiling (at least 3), each with a small resistor in series, glowing warm white. - KITCHEN/DINING AREA: Additional LEDs on the ceiling (2-3), glowing. - A 9V BATTERY with red/black snap connector sitting on a small shelf, with wires leading to the Arduino power jack. - ALL CONNECTIONS are clearly visible: resistors, wires, and components neatly arranged. INTERIOR FIRST FLOOR (fully exposed through cross-section): - BEDROOM/HALLWAY: A CLAP-ACTIVATED LAMP clearly visible. This consists of: - A small LED fixture (or standalone LED) mounted on the ceiling or wall. - A DEDICATED SOUND SENSOR MODULE next to it (or connected via wires) that detects claps to turn the LED on/off. - Wires running from this sensor down to the ground floor Arduino (visible along the wall). - Additional LEDs on the first floor ceiling (at least 3), all glowing, with resistors visible. - BATHROOM or second bedroom with another LED. ELECTRONICS DETAILS: - Every component is realistically rendered: text on Arduino ("Arduino Uno" visible), gold pins, copper traces on sensors, colored insulation on wires. - The SPLIT SECTION shows the wooden base platform with grid lines, and the interior walls have subtle textures (paint, wallpaper). - The cross-section cut is clean, revealing the interior structure: floors, walls, and all components. LIGHTING: - Studio lighting from multiple angles with soft shadows. - The LEDs are GLOWING softly (warm white and cool white). - Clean light gray gradient background. LABELS: - Subtle labels integrated next to each component: "Arduino Uno", "Ultrasonic Sensor", "Servo Motor", "Sound Sensor (Gate)", "Clap Sensor (Lamp)", "LEDs", "9V Battery", "Resistors", "Automatic Gate", "Parking Area". STYLE: - Architectural cross-section render, hyperrealistic, educational diagram aesthetic, 8K resolution, depth of field slightly blurred at edges, C4D render quality, bright and clear atmosphere perfect for physics project presentation. ALONG THE ROAD, there are FOUR DECORATIVE LED POST LIGHTS: two on each side, evenly spaced, with small LEDs on top glowing softly. The road has lane markings. The toll booth interior is PARTIALLY OPEN or has a cutaway wall to reveal the electronics: an Arduino Uno Mini board (blue PCB with silver USB port) with colorful jumper wires (red, black, yellow) connecting DIRECTLY to components (NO BREADBOARD visible). The connections include: - An SG90 360° servo motor (already connected to the barrier arm) - A sound sensor module (for clap-activated lighting) mounted inside the booth - Multiple LEDs (inside the booth and connected to the post lights) - Resistors clearly visible in series with LEDs - A 9V battery with red/black snap connector as power source All components are realistically detailed: visible text on Arduino, gold pins, copper traces on sensors, colored wires neatly organized. The model sits on a wooden base platform with subtle grid lines. Studio lighting from multiple angles with soft shadows, clean light gray gradient background. Labels subtly integrated next to each component: "Arduino Uno", "SG90 Servo", "Sound Sensor", "LEDs", "9V Battery", "Barrier Arm", "LED Post Lights". High-resolution textures: matte plastic for toll booth, glossy for LEDs, metal for barrier arm, realistic electronic components. Style: Technical product render, hyperrealistic, educational diagram aesthetic, 8K resolution, depth of field slightly blurred at edges, C4D render quality, bright and clear atmosphere perfect for physics project presentation. The house has modern architecture with a driveway and an AUTOMATIC GATE at the entrance. The gate is connected to an SG90 360° servo motor mechanism. A PARKING AREA is visible in front of the house. The house is split down the middle: left half shows the complete interior of both floors, right half shows the exterior wall with windows. GROUND FLOOR interior exposed: living room area with an Arduino Uno Mini board (blue PCB) mounted on a breadboard, colorful jumper wires connecting to an HC-SR04 ultrasonic sensor positioned near the front gate to detect approaching objects. A sound sensor module (for clap activation) is visible on a wall. Multiple LEDs on the ceiling for general illumination. A 9V battery with red/black snap connector in a corner. Resistors clearly visible in the circuit. FIRST FLOOR interior exposed: bedroom or hallway with additional LED lighting and wires running through the walls. A LAMP ACTIVATED BY CLAP (a small LED fixture with sound sensor) visible on the first floor ceiling or wall. All components are realistically detailed: visible text on Arduino, gold pins, copper traces on breadboard, colored wires (red for power, black for ground, yellow for signals). The split section shows the wooden base platform with grid lines, and the interior walls have subtle textures. Studio lighting from multiple angles with soft shadows, clean light gray gradient background. Labels subtly integrated next to each component: "Arduino", "Ultrasonic Sensor", "Servo Motor", "Sound Sensor", "LEDs", "9V Battery". High-resolution textures: matte plastic for house walls, glossy for windows, realistic electronic components. Style: Architectural cross-section render, hyperrealistic, educational diagram aesthetic, 8K resolution, depth of field slightly blurred at edges, C4D render quality, bright and clear atmosphere perfect for physics project presentation.
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Anonymous1771620934
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