Frequently Asked Questions

Sedgevision is a product-driven technology company founded in July 2018 by passionate engineers and educators. We operate at the intersection of education and innovation — setting up AI Robotics labs in schools, building enterprise-grade IoT and machine learning platforms, and offering services like SEO, Digital Marketing, Web Development, Custom ERP Systems, and immersive AR/VR experiences. We are headquartered in Bangalore and serve clients across India.

Our mission is to make cutting-edge technology accessible, affordable, and truly useful — whether it's a 10-year-old coding her first robot or a factory deploying predictive maintenance AI. We believe practical, hands-on learning drives real outcomes, and we measure success by how much our students and clients actually achieve.

Since 2018, Sedgevision has trained 10,000+ students and delivered 100+ projects across education, agriculture, manufacturing, and other sectors. We've set up complete STEM labs in over 100 schools across India, aligning with CBSE, ICSE, and State board requirements.

While education is our core focus, we also build solutions for:

• Healthcare — hospital queue management AI, patient flow optimization
• Agriculture — drone-based crop analysis, soil health mapping
• Manufacturing — factory predictive maintenance, quality inspection AI
• Retail — custom e-learning platforms, e-commerce solutions

Yes. Our curriculum is aligned with NEP 2020 skill education guidelines and reviewed by industry advisors. We are a registered private limited company (Sedgevision Pvt Ltd) and our programs have been adopted by schools affiliated with CBSE, ICSE, and various State boards across India.

We offer tiered programs from Age 6 (Grade 1) through university level. The structure is:

• Age 6–9: Block-based coding (Scratch) and simple mechanical builds
• Age 10–13: Introduction to Python, sensor integration, basic circuits
• Age 14–17: Python/C++, autonomous navigation, computer vision basics
• University level: Advanced ML integration, ROS, industrial automation

Yes. Every enrolled student receives a Sedgevision AI Robotics Kit that includes a microcontroller, sensors, motors, chassis parts, and all necessary components. The kit is purpose-built in-house for durability, ease of use, and curriculum fit — and it stays with the student for continued experimentation at home.

Depending on the age group and course level:

• Scratch — block-based visual programming for beginners (Age 6–9)
• Python — the primary language for intermediate and advanced robotics (Age 10+)
• C++ — for performance-critical applications and microcontroller programming (Age 14+)

All languages are taught through hardware projects that feel real and purposeful, not abstract exercises.

We offer flexible formats:

• 1-week intensive bootcamps — quick immersion during holidays
• Month-long holiday camps — deeper exploration with a project outcome
• Full academic year programs — integrated into school timetables

Beginner modules run 20–30 hours, while advanced modules run 60–80 hours of instructional time.

We offer a hybrid model. Live online sessions work well for theory and coding, while in-person workshops at partner schools or our centers are ideal for hardware assembly and testing. All sessions are recorded for later revision, so students never miss content regardless of attendance mode.

Students build progressively complex projects:

• Beginner: Line-following bots, obstacle-avoidance cars, LED-controlled circuits
• Intermediate: Bluetooth-controlled robots, gesture-controlled bots, sensor data loggers
• Advanced: Autonomous navigation systems, computer vision–guided bots, robotic arms

We also introduce humanoid and industrial robot concepts at the advanced level.

Yes. Every student who completes a course receives a Sedgevision Certificate of Completion that details the skills learned, projects built, and hours completed. For school partnerships, we also provide grade-appropriate assessment reports that can be included in student portfolios.

Learning AI and robotics delivers multiple benefits:

• Future readiness — automation and coding skills that define the next decade's job market
• Problem solving — decomposing complex challenges into logical, testable steps
• Creativity — designing robots and seeing ideas physically come to life
• STEM engagement — making science and math exciting through tangible outcomes
• Confidence — watching a self-built robot move gives a powerful sense of accomplishment
• Team collaboration — group projects build communication and accountability

Absolutely. We handle everything from start to finish:

• Space planning and interior layout
• Furniture and power setup
• Hardware procurement (robots, kits, 3D printers, computers)
• Software installation and licensing
• Curriculum design aligned to your board (CBSE/ICSE/State)
• Hands-on teacher training

We've completed full lab setups in over 100 schools across India.

A standard lab package includes:

• Robotics kits — one per student (microcontroller, sensors, motors, chassis)
• 3D printer — FDM-based for rapid prototyping
• Computing stations — pre-configured with coding IDEs
• Drone kit — for aerial technology modules
• AR/VR headsets — for immersive learning modules (optional add-on)
• IoT sensor kit — for smart building/environment projects
• Printed curriculum — graded worksheets, project guides, assessment rubrics

The exact configuration is customized based on your school's budget and student strength.

Typical timeline from agreement to fully operational lab:

• Week 1–2: Site visit, space planning, and proposal finalization
• Week 3–5: Procurement and logistics
• Week 6–7: Installation, furniture setup, and software configuration
• Week 8: Teacher training (3–5 day intensive program)
• Week 9: Pilot batch with students, feedback, and handover

Total: approximately 6–9 weeks depending on scope and location.

Yes, this is a critical part of our delivery. We conduct a 3–5 day intensive teacher training program covering:

• Hands-on assembly and programming of all lab equipment
• Curriculum walkthrough with lesson plans for each grade
• Troubleshooting common hardware and software issues
• Assessment methods and student progress tracking

Post-training, we provide ongoing remote support and optional refresher sessions throughout the year.

Yes. Our curriculum is aligned with NEP 2020 skill education guidelines and can be customized for:

• CBSE — including Artificial Intelligence subject (Classes 8–10) and Computer Science
• ICSE — Computer Applications and Technical Drawing Applications
• State Boards — adapted to specific vocational skill subjects where available

All content is reviewed by industry advisors and updated annually.

Yes. We offer AMC (Annual Maintenance Contract) packages that cover:

• Hardware servicing and component replacement
• Software updates and license renewals
• Refresher training sessions for teachers
• Technical helpline during school hours

This ensures the lab stays fully functional year after year without burdening your internal IT team.

We recommend a minimum of 400–600 sq. ft. for a standard batch of 30 students. The space should have:

• Stable power supply with backup (UPS/inverter)
• Good ventilation or air conditioning
• Internet connectivity (wired preferred, Wi-Fi acceptable)
• Workbenches with adequate power outlets

We can also work with smaller spaces by recommending optimized layouts and batch scheduling.

Our drone programs span education and enterprise:

• Student workshops — drone assembly, autonomous flight programming, aerial photography basics
• School modules — integrated into STEM lab curriculum for Grades 8–12
• Enterprise solutions — crop health mapping with multispectral imaging, infrastructure inspection, thermal imaging analysis

All programs include hands-on flight time and safety training.

Our agricultural drone solutions include:

• Multispectral imaging — identifies crop stress, pest infestations, and nutrient deficiencies before they're visible to the human eye
• NDVI mapping — generates vegetation health maps for precision farming decisions
• Aerial survey — measures field area, elevation, and drainage patterns
• Autonomous flight programming — pre-planned routes for consistent, repeatable data collection

Data is processed and delivered as actionable reports with recommendations.

Our IoT services cover:

• Smart home & office setups — automated lighting, climate control, security systems
• Industrial IoT sensors — vibration, temperature, humidity monitoring on production lines
• Remote fleet management — GPS tracking, fuel monitoring, route optimization
• Cloud dashboard integration — real-time telemetry with alerts and analytics
• Smart building automation — we've deployed 500+ IoT sensors for real-time building monitoring

Absolutely. Both drone technology and IoT are included as advanced modules in our STEM lab curriculum (Grades 8–12). Students learn to:

• Assemble and program drones for autonomous flight
• Set up sensor networks to collect environmental data
• Visualize data on cloud dashboards they build themselves

These modules connect physics, geography, and computer science concepts through real-world applications.

Yes. Our drone assembly workshops are popular among schools and engineering colleges. Participants build a drone from individual components — frame, motors, ESCs, flight controller, and propellers — then learn to calibrate, program flight paths, and fly safely. Workshops range from 2-day crash courses to week-long deep dives.

We follow all DGCA (Directorate General of Civil Aviation) regulations. For educational flights within school campuses, micro and small drones (under 2 kg) can be flown without special permits in most cases. We train students on:

• No-fly zone awareness
• Safe altitude and distance practices
• Drone registration basics for larger categories

For enterprise aerial surveys, we handle all necessary permissions and documentation.

We offer both services and education:

• Rapid prototyping services — turn your CAD design into a physical part in hours
• Custom part manufacturing — replacement parts, jigs, fixtures, enclosures
• Multi-material printing — PLA, ABS, PETG, TPU (flexible), and resin-based printing
• CAD modeling workshops — teach students Tinkercad, Fusion 360, or SolidWorks

Our tagline says it best: "If you can imagine it, we can print it."

Yes, 3D printing is a standard component of our STEM lab packages. Students learn to design objects in CAD software, slice them for printing, and operate FDM printers. It's integrated into project-based modules where students print custom robot parts, architectural models, or science experiment apparatus.

We accept STL, OBJ, 3MF, and STEP files. If you don't have a 3D model, we can create one from your sketches, reference images, or technical drawings. Our team handles everything from design optimization for printability to post-processing (sanding, supports removal, painting).

Most standard parts are printed within 4–24 hours depending on size and complexity. Our pricing is highly competitive — we charge based on material volume (grams), not time. For schools and businesses with recurring needs, we offer monthly retainer packages that significantly reduce per-part cost.

Our AR/VR education solutions include:

• Virtual science labs — conduct physics, chemistry, and biology experiments without physical equipment
• AR-based textbook overlays — scan a page and see 3D models, animations, and simulations come alive
• VR campus tours — immersive 360° virtual walkthroughs for admissions and marketing
• Industrial safety simulations — practice hazardous scenarios in zero-risk virtual environments

These are especially valuable for rural schools with no physical lab equipment.

For VR: standalone headsets like Meta Quest 2/3 (no PC required) or tethered setups for higher-fidelity experiences. For AR: tablets or smartphones with our custom AR app installed. We include hardware recommendations and procurement as part of our lab setup package.

Yes. We develop bespoke AR/VR content tailored to your curriculum. For example:

• Walk through the solar system in VR for astronomy lessons
• Explore historical events with immersive recreations
• Dissect a virtual frog or explore human anatomy in 3D
• Practice engineering assembly sequences in VR

Content development timelines typically range from 4–8 weeks per module.

We follow manufacturer guidelines — most VR headsets recommend ages 13+ for extended use. For younger students (Age 6–12), we prioritize AR experiences on tablets which have no age restrictions. VR sessions for older students are kept to 15–20 minute intervals with breaks, and all content is reviewed for age-appropriateness.

We build custom ML models trained on your data to:

• Forecast trends — demand prediction, financial forecasting
• Automate decisions — classification, anomaly detection, recommendation engines
• Surface smarter insights — data visualization dashboards, pattern recognition
• Natural Language Processing — chatbots, document analysis, sentiment analysis
• Deep learning — neural networks for image recognition, object detection

We transform raw data into actionable, production-ready intelligence.

One of our featured case studies is a Predictive Maintenance System for an Auto Parts Factory. We installed vibration and temperature sensors on critical machinery, trained ML models on the sensor data to detect early failure patterns, and built a real-time dashboard that alerts operators before breakdowns occur. The result: 40% reduction in unplanned downtime and significant cost savings on emergency repairs.

Not at all. We offer data engineering as a starting service — cleaning, structuring, and labeling your raw data so it's ML-ready. Many of our clients come with messy spreadsheets, log files, or manual records. We handle the entire data pipeline from collection to model deployment.

Yes. At the advanced school level (Grades 11–12) and university level, we introduce students to:

• Supervised vs. unsupervised learning concepts
• Building simple classification models with Python (scikit-learn)
• Training image recognition models
• Data visualization with matplotlib and dashboards

These modules connect directly to our robotics kits — students can build robots that "see" and "decide" using their own ML models.

We deliver fast, responsive websites built for conversions:

• Business websites — corporate sites, landing pages, portfolios
• E-commerce platforms — Shopify, WooCommerce, or custom-built stores
• Custom web applications — dashboards, portals, SaaS products
• CMS development — WordPress, custom CMS for content-heavy sites
• ERP systems — tailored business management software

SEO, analytics, and CMS integration are included from day one — never bolted on later.

We choose the right stack for each project:

• Frontend: React, Vue.js, Bootstrap, Tailwind CSS
• Backend: Node.js, Python (Django/Flask), PHP (Laravel)
• Databases: MySQL, PostgreSQL, MongoDB
• CMS: WordPress, Headless CMS (Strapi)
• Hosting: AWS, Google Cloud, Vercel, or client-preferred infrastructure

We prioritize performance optimization — fast load times, mobile-first design, and accessibility compliance.

Yes. We build tailored ERP solutions that replace scattered spreadsheets and manual processes. Typical modules include inventory management, HR & payroll, purchase orders, attendance tracking, and financial reporting. Each system is designed around your specific workflows — not forced into a generic template.

Yes. Post-launch, we offer:

• Monthly maintenance plans — updates, backups, security patches
• Performance monitoring — uptime tracking, speed optimization
• Content updates — add/change pages, blog posts, images
• Feature additions — new functionality as your business grows

We believe a website is never "done" — it should evolve with your business.

We provide end-to-end SEO:

• Technical audits — site speed, crawlability, schema markup, mobile usability
• On-page optimization — meta tags, heading structure, internal linking, content optimization
• Off-page SEO — high-quality link building, local citations, brand mentions
• Content strategy — keyword research, blog calendars, topic clusters

We focus on real ROI — qualified traffic and conversions, not vanity metrics.

Yes. Our paid advertising services include:

• Google Ads (Search & Display) — keyword-targeted campaigns with conversion tracking
• PPC campaign management — bid optimization, A/B testing ad copies, negative keyword management
• Social media ads — Facebook, Instagram, LinkedIn targeted campaigns
• Retargeting — re-engage visitors who didn't convert on first visit

All campaigns include monthly performance reports with transparent spend tracking.

SEO is a long-term investment. Realistic timelines:

• 1–3 months: Technical fixes implemented, indexing improvements, initial ranking movements
• 3–6 months: Noticeable improvement in keyword rankings and organic traffic
• 6–12 months: Significant growth in qualified organic traffic and lead generation

For immediate results while SEO builds momentum, we recommend a combined SEO + Google Ads strategy.

Yes. Our social media management includes:

• Content creation — posts, stories, reels, carousels tailored to each platform
• Calendar planning — consistent posting schedule aligned with your brand voice
• Community engagement — responding to comments, DMs, and mentions
• Analytics & ROI reporting — track growth, engagement rate, and conversion from social channels

We manage Instagram, Facebook, LinkedIn, YouTube, and Twitter.

Every client receives a monthly performance report that includes:

• Organic traffic trends and keyword ranking changes
• Google Ads spend, CPC, CTR, and conversion data
• Social media growth metrics (followers, engagement, reach)
• Goal completions and ROI analysis
• Actionable recommendations for the next month

We also offer live dashboard access so you can check real-time metrics anytime.

Simple steps:

• Fill out the Contact form on our website or call +91 9069532222
• We'll schedule a free demo session where your child can experience a mini robotics activity
• Based on age and interest, we recommend the right course level
• Complete enrollment and receive the robotics kit at your doorstep

For partnerships:

• Reach out at reach@sedgevision.com or call +91 9069532222
• Our team arranges a consultation call to understand your requirements
• We share a detailed proposal within 48 hours with scope, timeline, and pricing
• Partnership types: school lab setup, corporate training, reseller agreements, joint projects

Pricing depends on scope — course type, lab size, or project complexity. General approach:

• Individual courses: one-time payment or 2-installment option
• School labs: project-based pricing with milestone-linked payments
• Enterprise projects: customized quotes with flexible payment schedules
• SEO/Marketing: monthly retainer models

We provide transparent, detailed quotes with no hidden charges. Share your requirements and we'll respond within 48 hours.

We provide round-the-clock technical assistance:

• During workshops: on-site support team for smooth execution
• After delivery: dedicated support helpline for troubleshooting
• For school labs: annual maintenance contracts covering hardware, software, and refresher training
• For enterprise projects: 30-day warranty + optional extended support plans

We believe delivery is the beginning of the relationship, not the end.

Our office is at 11th Cross, St Antony's School Road, Ramamurthy Nagar, Bangalore - 560016. However, we serve clients across India — our school lab setups span multiple states, and our online courses and digital services are available nationwide. For enterprise projects, we travel to client sites for installation and training.

Multiple ways to reach us:

• Phone: +91 9069532222
• Email: reach@sedgevision.com
• Chat: Click the green chat bubble on our website for instant responses
• Contact form: Fill out our online form
• Social media: DM us on Instagram, Facebook, or LinkedIn

We typically respond within 2 hours during business hours (Mon–Sat, 9 AM – 7 PM IST).