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Autonomous Mobile Robot Platforms For Learning And Innovation

Goat Robotics, a Coimbatore-based company, has introduced a range of Autonomous Mobile Robot (AMR) platforms for various applications. These include the GT-DB and GT-OB, which are designed for learning and material management in various settings. The GT-E2B and GT-EB platforms encourage innovation in robotics, automation, and machine learning, while the GT-SQ offers versatility for light-duty industrial tasks. These innovative AMR solutions empower learning, innovation, and operational efficiency, pushing the boundaries of education and technology. Goat Robotics' diverse range of AMR solutions is aimed at enhancing learning and innovation.

Our Product

Download Brochure GT-DB

Download Brochure GT-OB

Download Brochure GT-E2B

Download Brochure GT-EB

Download Brochure GT-SQ

GT-DB Differential Base AMR

The Differential Drive Robot is a versatile tool designed for educational purposes, primarily used in labs and classrooms for material management. It excels in library settings, ensuring systematic organization and easy access for patrons. Its user-friendly interface enhances learning experiences and streamlines administrative tasks. Its adaptability makes it an invaluable asset in diverse educational environments, fostering innovation and practical skill development among students and researchers.

GT-OB Omni Base AMR

The Mecanum Wheels Robot is a versatile tool designed for educational settings. It offers omnidirectional movement for seamless navigation in confined spaces. It aids in material management, organizing lab supplies, and book maintenance. Its intuitive controls enhance learning experiences and simplify tasks. It also promotes innovation and practical skill development among students and researchers.

GT-E2B Education bot V 2.0 AMR

The Differential Drive Robot is an educational tool designed for students to explore and innovate in robotics, control theory, and artificial intelligence. Its flexible architecture allows for the customization of sensors, actuators, and algorithms, fostering creativity and innovation. The user-friendly interface and robust construction enable hands-on learning experiences and practical experimentation, promoting creativity in the field.

GT-EB Education bot AMR

The Skid Steer Robot is an educational tool designed for PhD students to explore and innovate in robotics, automation, and machine learning. Its versatile design allows students to develop diverse applications and customize them with sensors, actuators, and software, fostering creativity and problem-solving skills. This platform pushes the boundaries of robotics education and technology, enabling students to tackle complex challenges.

GT- SQ Square Base AMR

The GT-SQ autonomous robot, with a 100 kg load capacity, is versatile and adaptable for various applications. AMR is designed for light-duty industrial settings; it can also be used in commercial spaces like hotels for tasks like luggage transport and maintenance. Its flexibility enhances operational efficiency and guest experiences, showcasing its adaptability, reliability, and innovation.

Highlight of AMR platforms

Advanced Features Of AMR In Education & Innovation Platforms

Navigation
Utilizing SLAM technology for precise location mapping.
Movement
Obstacle avoidance and stop-and-play functionality are included to enable controlled and precise moves.
Drive
Each model features a distinct drive system—Meccanum wheels, differential drive, and skid steer—for versatile and efficient mobility.

Safety Features
Equipped with obstacle detection sensors and an emergency button, ensuring enhanced safety measures.
Connectivity Options
All models offer Wi-Fi-enabled connections for seamless communication and operational flexibility.
Operation
Customised for indoor functionality, making them suitable for diverse applications and educational settings.

Our Application

Top Autonomous Mobile Robot-Based Application Platforms

A young girl concentrated on creating a robot surrounded by tools and electronic components.

Educational Tool

ARM is revolutionizing classrooms and labs by promoting hands-on learning, material organization, and innovation in robotics and automation.

A male worker in the factory gathers and arranges supplies to ensure safe and neat product assembly.

Material Management

ARM excels in education, efficiently managing materials within facilities, ensuring streamlined organization and operational efficiency.

A robot stands in front of the shelves, ready to help gather and organize items in the facility.

Library Management

ARM is adept at library management, organizing books efficiently, improving accessibility, and streamlining tasks easily.

A factory backdrop with multiple robots arranged in order to demonstrate automation in work.

Systematic Organization

ARM provides attendees with easy access through book arrangements, streamlining organization in educational settings for greater convenience.

A worker walks with a robot on an assembly line, both engaged in the manufacturing process.

User-Friendly Interface

ARM features a user-friendly interface, fostering ease of operation for both students and educators alike.

In a warehouse, the robot moves boxes efficiently, improving production and streamlining processes.

Streamlined Administrative Tasks

ARM streamlines administrative tasks, simplifying processes within educational institutions for enhanced efficiency and productivity.

The machine in the factory moves goods automatically from one place to another on the conveyor.

Adaptability

ARM boasts adaptability, proving versatile for application in various educational environments, ensuring flexibility and optimal performance.

Several people gathered near a robot that was put on a table. It looked like an educational workshop

Innovation and skill development

ARM fosters innovation and practical skill development among students and researchers, promoting a dynamic learning environment.

Specification

Specification of the GT-Series in the AMR Plaforms

Category	Description	Specification
Chasis	Dimension (LBH)	450 X 410 X 245 (mm)
	Self weight	20Kg
	Ground Clearance	16 mm
	Turning Radius	Zero
	Suspension	Rocker mechanism
Performance	Max. Payload	12~15 Kg/Set
	Max. Speed	1.5 Meter per Sec
	Max. Turning Speed	30 Degree per Sec
	Positioning Accuracy	*+/- 5 Cm
	Min. Aisle Width	600 mm
Power supply	Battery Type	LITHIUM-ION BATTERY
	Battery Capacity	24V /10Ah
	Running Time	2-3hrs
	Charging Time	2 hrs
	Charging type	Manual or Autonomous
Control System And sensor	Processor	Intel® Core™ i3-10110U Processor 8GB RAM \| 256GB SSD
	Operating System	Ubuntu
	Control Modes	SLAM Navigation /Joystick
	Communication	Ethernet, USB 3.0, WiFi
	Sensors	"1 X 2D LIDAR, 1X IMU, 4X Encoder, 1X depth camera, Optional Ultrasonic Sensors, "
	Standard LeadOuts	USB, External Emergency Port, ON/OFF and Reset Switch

Category	Description	Specification
Chasis	Dimension (LBH)	505 x 310 x 300 mm
	Self weight	20Kg
	Ground Clearance	32mm
	Turning Radius
	Suspension	Rocker mechanism
Performance	Max. Payload	12~15 Kg/Set
	Max. Speed	1.5 Meter per Sec
	Max. Turning Speed	30 Degree per Sec
	Positioning Accuracy	*+/- 5 Cm
	Min. Aisle Width
Power supply	Battery Type	LITHIUM-ION BATTERY
	Battery Capacity	24V /10Ah
	Running Time	2-3hrs
	Charging Time	2 hrs
	Charging type	Manual / Automonous
Control System And sensor	Processor	NVIDIA Jetson AGX Orin 16GB +512GB
	Operating System	Ubuntu
	Control Modes	SLAM Navigation /Joystick
	Communication	Ethernet, USB 3.0, WiFi
	Sensors	"1 X 2D LIDAR, 1X IMU, 4X Encoder, 1X depth camera, Optional Ultrasonic Sensors"
	Standard LeadOuts	USB, External Emergency Port, ON/OFF and Reset Switch

Category	Description	Specification
Chasis	Dimension (LBH)	(608500295) MM
	Self weight	75 KG
	Ground Clearance	55 mm
	Turning Radius	Zero
	Traction	Four Wheel Drive
Performance	Max. Payload	80kg
	Max. Speed	1.5 METER PER SECOND
	Max. Turning Speed	45 Degree Per second
	Positioning Accuracy	*+/- 5 Cm
	Min. Aisle Width	650 mm
Power supply	Battery Type	LITHIUM-ION BATTERY
	Battery Capacity	48v /12Ah
	Running Time	6 hrs
	Charging Time	3-4hrs
	Charging type	Auto / manual
Control System And sensor	Processor	Intel® Core™ i3-10110U Processor 8GB RAM \| 256GB SSD
	Operating System	Ubuntu
	Control Modes	SLAM Navigation /Joystick
	Communication	Ethernet, USB 3.0, WiFi
	Sensors	"1 X 2D LIDAR, 1X IMU, 2X Encoder, 1X depth camera, Optional Ultrasonic Sensors"
	Standard LeadOuts	USB, External Emergency Port, ON/OFF and Reset Switch

Category	Description	Specification
Chasis	Dimension (LBH)	(562 × 416 × 282) mm
	Self weight	32 kg
	Ground Clearance	30 mm
	Turning Radius
	Suspension
Performance	Max. Payload	30 kg (max upto 50 KG)
	Max. Speed	1.5 Meter Per Second
	Max. Turning Speed
	Positioning Accuracy	*+/- 5 Cm
	Min. Aisle Width
Power supply	Battery Type	Lithium-Ion Battery
	Battery Capacity	570-Watt Hour
	Running Time	Basic Usage - 8 Hours Under Full Load - 3 Hours
	Charging Time	4 Hours
	Charging type	Autonomous / manual
Control System And sensor	Processor	Intel® Core™ i3-10110U Processor 8GB RAM \| 256GB SSD
	Operating System	Ubuntu
	Control Modes	SLAM Navigation /Joystick
	Communication	Ethernet, USB 3.0, WiFi
	Sensors	"1 X 2D LIDAR, 1X IMU, 2X Encoder, 1X depth camera, Optional Ultrasonic Sensors"
	Standard LeadOuts	USB, External Emergency Port, ON/OFF and Reset Switch

Category	Description	Specification
Chasis	Dimension (LBH)	625X590X290
	Self weight	60 Kg
	Ground Clearance	33 mm
	Turning Radius	Zero
	Suspension	Rocker
Performance	Max. Payload	100KG
	Max. Speed	1 M/s
	Max. Turning Speed	45 Degree per Second
	Positioning Accuracy	*+/- 5 Cm
	Min. Aisle Width	750 mm
Power supply	Battery Type	lithium ion
	Battery Capacity	48V-22ah
	Running Time	8 Hours
	Charging Time	4-5 Hours
	Charging type	Auto / Manual
Control System And sensor	Processor	Intel i5 11Gen
	Operating System	Ubuntu
	Control Modes	SLAM Navigation /Joystick
	Communication	Wi-Fi, Bluetooth, BLE
	Sensors	"1 X 2D LIDAR, 1X IMU, 2X Encoder, 1X depth camera, Optional Ultrasonic Sensors"
	Standard LeadOuts	USB, External Emergency Port, ON/OFF and Reset Switch

Why Choose Us?

Why Choose Autonomous Mobile Robot From Goat Robotics?

Expertise

Goat Robotics, a company specializing in AMR platforms, offers extensive expertise and knowledge in the field.

Customization Options

Goat Robotics' AMR platforms allow customization with sensors, actuators, and algorithms, promoting adaptability and creativity.

Diverse Range

We provide a diverse range of AMR platforms, including GT-DB, GT-OB, GT-E2B, GT-EB, and GT-SQ, to meet various needs.

Industry Applications

Goat Robotics' platforms find applications not only in education but also in commercial spaces like hotels, showcasing versatility.

Operational Efficiency

The AMR solutions from Goat Robotics enhance efficiency in tasks like material transport, maintenance, and education management.

Continuous Innovation

We consistently demonstrate a commitment to innovation, staying at the forefront of AMR technology for evolving needs.

FAQ

Questions And Answers About Our Products

Goat Robotics' AMR platforms, such as GT-SQ Square Base, enhance industrial operations by improving efficiency, enhancing material transport, and streamlining maintenance. They provide a reliable and versatile solution for various industries.

Goat Robotics' AMR platforms offer industry-specific customization options, integrating sensors, actuators, and algorithms to optimize operational processes and cater to specific industry needs. Contact the best AMR manufacturers in Coimbatore for personalized AMR for your industries.

GT-SQ Square Base is a versatile solution for commercial spaces like hotels. It enhances operational efficiency and guest experiences by efficiently handling tasks like luggage transport and maintenance.

Best Applications of Autonomous Mobile Robot Platforms, India