02 / Robotics engineering

Robotics Solutions.
Built around the outcome.

ExaCkt builds robotics solutions around real operating tasks: movement, sensing, control, safety, integration, testing, and pilot deployment. We help customers move from a robotics idea or automation problem to a working prototype, demonstrator, or production-ready roadmap.

Direct ExaCkt deliveryScoped proposal before work startsMilestone-based execution
01

A robotics concept shaped around the real task and operating environment

02

Prototype hardware, controls, firmware, software, and integration plan

03

Pilot validation notes, risks, and a roadmap toward deployment

The work is clear.
The decisions are visible.

Every engagement is tailored to the brief, but the work is always organised around tangible engineering outputs and a transparent review path.

01

Robotics architecture

Define the robot type, payload, movement, sensing, control stack, safety assumptions, operating environment, and pilot objective.

02

Controls, firmware and software

Motor control, sensor fusion, embedded firmware, ROS/ROS 2 workflows, computer vision, teleoperation, dashboards, and diagnostics.

03

Prototype and pilot readiness

Build coordination, integration, validation, field constraints, operator workflow, serviceability, and next-version recommendations.

Robotics work that joins
hardware, code, and motion.

Robotics succeeds when the task, environment, control logic, sensing, physical build, and operator workflow are designed together.

Mobile robots and AMR prototypes

Autonomous or assisted mobile platforms for movement, inspection, lab demos, warehouse trials, campus movement, and controlled navigation.

Drive basenavigationobstacle sensingtelemetry

Robotic arm and pick-place cells

Manipulator concepts for sorting, part handling, simple assembly, loading/unloading, inspection positioning, and repeatable bench automation.

End effectormotion sequencesafety zonefixture

ROS and robotics software

ROS/ROS 2 nodes, robot state handling, sensor drivers, simulation support, teleoperation, logs, dashboards, and integration middleware.

ROS 2Python/C++robot statediagnostics

Computer vision and perception

Camera-based detection, object position, fiducial markers, inspection assistance, visual feedback, and practical perception pipelines.

OpenCVcameradetectioncalibration

Motor control and embedded robotics

Motor drivers, encoders, motion profiles, MCU firmware, safety inputs, power design support, and control-loop implementation.

BLDC/StepperencoderCANcontrol loop

Industrial automation prototypes

Machine-assist prototypes, conveyor interaction, sensor-driven control, PLC-adjacent integration, operator workflow, and trial cells.

I/OfixturesModbuspilot cell

From robotic task
to pilot-ready system.

We can support the full robotics stack: mobility, motors, sensors, embedded control, ROS/ROS 2 workflows, computer vision, teleoperation, diagnostics, and prototype validation.

MCU firmwareMotor controlROS / ROS 2Computer visionPath planningTeleoperationOperator dashboardSafety assumptions
Robot system prototype in a lab environmentEngineering team working in a robotics lab

Starting points customers
can ask us to shape.

These are not fixed products. They are strong starting points that ExaCkt can scope, customise, prototype, and validate for a specific customer environment.

01

Warehouse assist robot

Mobile platform for moving bins, tools, or material between defined stations.

Discuss this solution
02

Line-following logistics robot

Low-cost movement prototype for factories, labs, campuses, and training environments.

Discuss this solution
03

Robotic arm pick-and-place cell

Bench-scale or pilot cell for repetitive handling, sorting, or simple assembly.

Discuss this solution
04

Vision inspection robot

Camera-guided inspection setup for parts, labels, defects, alignment, or process evidence.

Discuss this solution
05

Agriculture field rover

Sensor-carrying rover prototype for soil, crop, greenhouse, or farm monitoring.

Discuss this solution
06

Security patrol robot

Controlled-environment patrol demonstrator with camera, alerts, and remote status.

Discuss this solution
07

Educational robotics kit

Custom robotics kit for colleges, labs, training centres, and innovation programmes.

Discuss this solution
08

Teleoperated service robot

Remote-controlled robotic platform for demonstrations, assisted handling, and field experiments.

Discuss this solution
09

Custom end-effector prototype

Gripper, suction, fixture, or tool interface for a specific handling task.

Discuss this solution
10

Solar panel cleaning robot

Panel-cleaning traversal system for solar farms, rooftops, industrial sheds, and dusty outdoor installations.

Discuss this solution

Pricing changes with scope,
but the path stays clear.

These are starting bands for planning only. The site estimates currency from browser locale and confirms final pricing after technical review.

Concept Prototype

₹25,000+

Task discovery, base architecture, small proof-of-concept, and prototype plan.

Start with this band

Functional Robotics Prototype

₹50,000+

Hardware, controls, firmware/software integration, bring-up, and validation notes.

Start with this band

Pilot Robotics System

₹1,50,000+

Pilot-ready build, operator workflow, safety assumptions, evidence, and deployment roadmap.

Start with this band

Currency shown in INR. Final quote depends on scope, parts, quantity, risk, and timeline.

A deliberate path
from brief to delivery.

We establish the technical and commercial route before work begins, then keep progress connected to the decisions that matter.

01

Map the robotic task

We define what the robot must do, where it operates, what it interacts with, and what success looks like for the first prototype or pilot.

02

Design the system approach

The engagement identifies mechanical platform assumptions, electronics, firmware, software, sensors, actuators, safety, and integration dependencies.

03

Build and integrate

ExaCkt coordinates the prototype path across hardware, control logic, device software, perception, and operational interfaces.

04

Validate and plan deployment

The prototype is reviewed against the task, risks are captured, and the next path is defined for pilot, redesign, or production planning.

This service is useful when you need:

Robotics proof-of-concept builds

Automation tasks that need a physical demonstrator

ROS, computer vision, motor control, and embedded integration

Mobile robot, robotic arm, and machine-assist prototypes

Pilot systems before larger automation investment

Before you begin.

A short consultation is the fastest way to establish whether this service is the right starting point.

Can ExaCkt build a full robot from an idea?+

Yes. We can begin with a task description and shape it into a phased robotics engagement: feasibility, prototype, validation, pilot, and deployment planning.

Do you support ROS and computer vision?+

Yes. Robotics engagements can include ROS or ROS 2 workflows, camera-based perception, sensor integration, teleoperation, dashboards, diagnostics, and embedded control.

A focused engineering conversation

Tell us what success
needs to look like.

Start a guided project brief for an initial delivery preview, or book a consultation with ExaCkt.

Start a project brief Book a consultation instead