Advanced Computational & Technical Skills

Advanced Computational & Technical Skills (ACTS)

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Frequently Asked Question

ACTS Program

What is ACTS by Tishitu ?

ACTS (Advanced Computational and Technical Skills) is a cutting-edge tech course designed by Tishitu, aimed at School students, engineering students, researchers, and tech enthusiasts who want to build expertise in emerging technologies.No matter your level, ACTS by Tishitu will equip you with future-ready skills to thrive in the tech-driven world.read more….

Who is eligible for ACTS?

Eligibility for ACTS:-ACTS by Tishitu is open to anyone eager to explore and master cutting-edge technologies, making it suitable for school students, engineering students, researchers, and professionals.No prior experience required! ACTS is designed for both beginners & advanced learners, with courses tailored to different skill levels.read more….

Can I join ACTS as a fresher?

ACTS as a fresher:-Yes, absolutely! ACTS by Tishitu is designed to be beginner-friendly, making it perfect for freshers who have no prior experience in advanced technologies. Whether you are a school student, a first-year engineering student, or someone new to tech, ACTS provides a structured learning path to help you build skills from scratch.read more….

When are the live classes held?

ACTS Live Classes :-The live classes for ACTS by Tishitu are scheduled at flexible timings to accommodate students from different backgrounds, including school students, engineering students, and professionals. Sessions are typically conducted on weekends and evenings on weekdays, ensuring that learners can balance their studies, work, or other commitments.read more….

What if I miss a lecture?

If you miss a lecture :- ACTS by Tishitu course, you don’t have to worry! Since classes are scheduled based on the convenience of the student, you can coordinate with the instructor to reschedule or attend a makeup session. This flexible approach ensures that every student gets the opportunity to learn without missing any important topics. read more….

Can I attend part-time?

For Part-Time :-Yes! ACTS by Tishitu is designed to be highly flexible, allowing students to attend classes part-time based on their convenience. Since there are no fixed schedules, sessions are arranged according to the student’s availability, making it ideal for school students, college students, and working professionals who have other commitments. read more….

Does ACTS give certificates?

Certificates :- Yes! ACTS by Tishitu provides a certificate of completion to students who successfully finish the course. This certificate serves as proof of your learning and can be valuable for academic growth, job applications, and professional development. It highlights your expertise in emerging technologies like AI, IoT, Robotics, and more, giving you an edge in your career. read more….

Is ACTS certification worth it?

Certification worth:-Yes! ACTS by Tishitu provides a certificate of completion to students who successfully finish the course. This certificate serves as proof of your learning and can be valuable for academic growth, job applications, and professional development. It highlights your expertise in emerging technologies like AI, IoT, Robotics, and more, giving you an edge in your career.read more….

Curriculum

What are the School, B.Tech and Professional section?

The School, B.Tech, and Professional sections the ACTS (Advanced Computational and Technical Skills) program by Tishitu are designed to cater to the unique learning needs of students at different stages of their academic and professional journeys.Each section is carefully structured to match the academic level and goals of the learner, ensuring that whether you’re just beginning read more….

DO all sections start at the same time ?

All sections of the ACTS (Advanced Computational and Technical Skills)program do not start at the same time. Since ACTS follows a flexible, student-centric approach, the classes are scheduled according to the convenience and availability of the student.Each section—whether it’s School, B.Tech, or Professional—has its own timeline, based on when students enroll and when they are ready to begin. read more….

Should I join the School , B.Tech or Professional section?

THE ACTS (Advanced Computational and Technical Skills)program you should join depends entirely on your current academic or professional stage and your learning goals.If you are a school student—particularly in classes 9 to 12—the School Section is the best fit for you. It’s designed to introduce you to emerging technologies in a fun, interactive, and beginner-friendly way. read more….

What is the duration of this program?

The duration of the ACTS (Advanced Computational and Technical Skills)program by Tishitu varies based on the learning mode you choose:Program Duration Options instructor-Led Live Sessions: Typically span 6 to 12 weeks, depending on the batch schedule. These sessions include live classes, hands-on projects, assignments, and interactive doubt-solving sessions. read more….

Teaching

What is the role of the tutor?

The ACTS (Advanced Computational and Technical Skills) program by Tishitu, the tutor plays a central and dynamic role in shaping your learning experience. The tutor is not just a lecturer, but a mentor, guide, and technical expert who supports you throughout your journey in emerging technologies. read more…

What are the profiles of the tutors?

The tutors in the ACTS (Advanced Computational and Technical Skills) program by Tishitu come from highly esteemed and diverse professional backgrounds, bringing together a powerful blend of academic excellence, industry experience, and research-driven insights. read more…

How will my doubts get solved?

In the ACTS (Advanced Computational and Technical Skills)program by Tishitu, doubt resolution is treated as a top priority to ensure that every student fully understands the concepts being taught.Whenever you have a doubt—whether it’s during a live session or while working on a project—you will have direct access to your tutor or a dedicated teaching assistant. Doubts are typically addressed in real-time during live classes read more…

Teaching assistants

What is the role of the Teaching Assistant?

In The ACTS (Advanced Computational and Technical Skills) program by Tishitu, a Teaching Assistant (TA) plays a supportive yet essential role in enhancing the overall learning experience for students. While tutors lead the sessions and explain core concepts, TAs ensure that every student receives consistent help and personal guidance throughout the course. read more….

What are the profiles of the Teaching Assistant?

In The ACTS (Advanced Computational and Technical Skills) program by Tishitu come from strong academic and practical backgrounds, selected carefully to provide high-quality support and mentorship to students across all sections—School, B.Tech, and Professional. Many TAs are graduates or current students of prestigious institutions like the IITs, NITs, or top engineering colleges, who have demonstrated deep technical knowledge read more….

What is the process of resolving doubts?

The process of resolving doubts in the ACTS (Advanced Computational and Technical Skills) program by Tishitu is designed to be simple, fast, and highly personalized—ensuring that no student is left behind.Since ACTS follows a live teaching model with no pre-recorded sessions, doubt-solving happens in real time during the classes. read more….

Entrance test

What is the format of the initial 30 min test?

The initial 30-minute test in the ACTS (Advanced Computational and Technical Skills) program by Tishitu is designed to help evaluate your current knowledge level and learning style, so that you can be guided into the most suitable section—School, B.Tech, or Professional. read more ….

Can this test be taken on mobile?

The initial 30-minute test Yes, the initial 30-minute test for the ACTS (Advanced Computational and Technical Skills) program by Tishitu can be taken on a mobile device. The test platform is optimized for smartphones and tablets, ensuring accessibility for users without access to a computer. read more ….

Do I need to prepare for this initial 30 min test?

The initial 30-minute test No, you do not need to prepare for the initial 30-minute test in the ACTS (Advanced Computational and Technical Skills) program by Tishitu.This test is not an entrance exam or a pass/fail evaluation. Instead, it’s a friendly assessment meant to understand your current level of knowledge, interests, and learning style. read more ….

Mentors

What is the role of the mentor?

In the ACTS (Advanced Computational and Technical Skills) program by Tishitu, the mentor plays a key role in guiding, motivating, and shaping your overall learning journey—beyond just teaching.A mentor is not only someone with deep expertise in the subjects you’re learning, but also a supportive guide who helps you grow personally and professionally. read more …..

What are the profiles of the mentors?

The Mentors in the ACTS (Advanced Computational and Technical Skills) program by Tishitu come from highly accomplished and diverse backgrounds, blending academic brilliance, industry expertise, and real-world innovation. They are carefully selected to guide students at every level—whether you’re a school student exploring technology for the first time or a professional looking to advance your career. read more …..

How many mentors are allotted?

In the ACTS (Advanced Computational and Technical Skills)program by Tishitu, the number of mentors assigned to students is tailored to ensure personalized guidance and effective learning. While specific mentor-to-student ratios can vary based on the cohort size and course structure read more …..

Can I change my mentor?

Yes, in the ACTS (Advanced Computational and Technical Skills)program by Tishitu, you can request to change your mentor if you feel that your learning style, communication preferences, or goals are not aligning well with your assigned mentor. read more …..

Placement support

What kind of placement support will I be given?

In The ACTS (Advanced Computational and Technical Skills) program by Tishitu, students receive a comprehensive set of placement support services designed to help them move confidently from learning to earning.Here’s how ACTS supports your placement journey:read more….

Could someone help me do mock interviews?

Yes, absolutely! In The ACTS (Advanced Computational and Technical Skills) program by Tishitu, mock interviews are an essential part of the placement preparation process.You’ll receive dedicated support from mentors, teaching assistants, or career coaches who will conduct one-on-one mock interviews based on your chosen domain—whether it’s embedded systems, AI, robotics, or any other ACTS module. read more….

Who are your employer partners?

Tishitu’s ACTS (Advanced Computational and Technical Skills) program offers comprehensive placement support to help students transition into industry roles. While specific employer partners are not publicly listed, the program provides several avenues to enhance employability read more….

What kind of roles do employers hire for?

The ACTS (Advanced Computational and Technical Skills) program by Tishitu, students are trained in a wide spectrum of emerging technologies, which opens doors to several exciting and in-demand roles across industries. Employers who hire ACTS-trained individuals typically look for candidates who can blend theoretical understanding with hands-on implementation skills.read more….

When would employers come to Tishitu to hire engineers?

The ACTS (Advanced Computational and Technical Skills) program once students near the completion of their training or have demonstrated strong technical performance through project work and mentorship feedback read more….

How is placement at Tishitu ?

The ACTS (Advanced Computational and Technical Skills) program is structured, personalized, and skill-driven rather than just number-focused.Rather than promising mass placements, Tishitu focuses on building strong technical foundations, practical expertise, and real-world portfolios that genuinely make students employable.

read more….

What is the highest placement in Tishitu?

The ACTS (Advanced Computational and Technical Skills) program. However, the core focus of ACTS remains on building deep technical proficiency, hands-on project experience, and industry-relevant skills in emerging domains such as Embedded Systems, IoT, Artificial Intelligence, Machine Learning, Robotics, and more.Rather than chasing placement numbers read more….

What is the success rate of the Tishitu ?

Tishitu’s ACTS (Advanced Computational and Technical Skills) program has consistently delivered strong outcomes by focusing on practical learning, personalized mentorship, and industry-ready skill development. With a curriculum designed around real-world applications and emerging technologies—such as AI, IoT, Embedded Systems, and Robotics—many students have successfully transitioned into technical roles, internships, and research opportunities across top organizations and startups. read more….

What is the salary after Acts course?

The salary after completing the Advanced Computational and Technical Skills (ACTS) course depends on various factors, including your prior experience, skill proficiency, industry demand, and the hiring company.read more….

Tuition fee

What is the fees of ACTS course?

The ACTS (Advanced Computational and Technical Skills) program by Tishitu offers multiple learning plans to cater to diverse learning preferences and goals. While specific fee details for each plan aren’t publicly listed, the program provides the following options: read more…

Can I pay in EMIs?

Yes, The ACTS (Advanced Computational and Technical Skills) program by Tishitu offers EMI (Equated Monthly Installment) options to make the course financially accessible for students.
EMI Payment Options
Additional Resourcesread more…

Does Acts refund money?

Yes, ACTS by Tishitu does offer a refund policy to ensure student satisfaction and trust.If you’re not satisfied with the course after enrolling, you can request a full refund within the first 7 days of joining. This 7-Day Money-Back Guarantee is designed to give you time to evaluate the teaching style, content, and overall experience.read more…

Tishitu’s ACTS course is tailored specifically for college students from first to final year, offering an immersive experience in advanced computational and technical skills. The curriculum integrates cutting-edge technologies such as Artificial Intelligence, Machine Learning, IoT, Robotics, Embedded Systems, Augmented Reality, and LiFi Communication. It provides live classes and hands-on projects that bridge theoretical concepts with real-world applications, ensuring you develop industry-ready expertise. Developed in collaboration with Malaviya National Institute of Technology (MNIT) in Jaipur, the course reflects decades of innovation and research. Students engage in multidisciplinary projects that tackle challenges like smart diagnostics, industrial automation, and interactive user interfaces. Practical modules cover modern tools and platforms—from full stack development using React, Flask, and MongoDB to sensor integration and hardware prototyping. Internship opportunities, career guidance, and continuous support empower you to build a strong professional network and portfolio. Ultimately, Tishitu’s ACTS course equips you with the skills and experience to lead and innovate in today’s fast-evolving tech landscape.

“हिंदी के लिए इसे सुनें।”

High school students in grades 10 to 12 can gain invaluable early exposure to advanced technologies through Tishitu’s ACTS course, where multidisciplinary projects seamlessly merge theory with hands-on practice. This program equips them with foundational skills in programming, electronics, and digital design that underpin modern innovations like AI, robotics, and brain-computer interfaces. Students develop critical thinking and creative problem-solving abilities as they work on projects that mirror real-world challenges. Engaging with these emerging technologies not only builds technical proficiency but also sparks curiosity and innovation. Collaborative projects foster teamwork and communication skills, essential for thriving in today’s interconnected industries. The course’s practical approach helps build a robust technical portfolio, giving students a competitive edge for future academic pursuits and internships. Exposure to such diverse fields opens up exciting opportunities for participating in competitions and advanced studies in STEM. Ultimately, the ACTS course empowers high school students to bridge the gap between academic theory and practical application, igniting a passion for lifelong learning and technological innovation.

For professionals and job-oriented enthusiasts, Tishitu’s ACTS course delivers expert-led, live classes that transform complex technical concepts into practical, industry-ready skills. The curriculum encompasses cutting-edge areas such as Artificial Intelligence, Machine Learning, IoT, Robotics, Embedded Systems, Augmented Reality, and LiFi Communication. Participants engage in hands-on projects designed to mirror real-world challenges and build a robust, job-ready portfolio. The program offers comprehensive 24/7 support, including live doubt-clearing sessions and access to a dynamic community of tech professionals. Internship opportunities, job referrals, and targeted career guidance are integral parts of the course, accelerating your professional growth. Multidisciplinary projects foster collaboration and innovation, preparing you for the competitive tech landscape. Continuous mentorship ensures you stay ahead with the latest industry trends and technologies. Ultimately, Tishitu’s ACTS course empowers you to excel, innovate, and transform your career trajectory in today’s rapidly evolving digital world.

Technology	Core Components	Description
Artificial Intelligence (AI)	Codes, Applications, Basic Application Codes	Learn to develop and implement intelligent algorithms with ready-to-use code samples and applications that simulate human-like decision making and reasoning processes.
Machine Learning (ML)	Datasets for Training and Testing	Focus on data processing, model training, and evaluation using curated datasets to build predictive, adaptive systems that learn from data.
Embedded Systems	Code, Sensors, Motors, Arduino, Raspberry Pi, Advanced Computational Devices	Master microcontroller programming and hardware integration by interfacing sensors and motors; build sophisticated projects using Arduino, Raspberry Pi, and other advanced devices.
Robotics	Code, 3D STL Models, Motors, Arduino, Sensors, Miscellaneous Components	Integrate programming with hardware design and 3D modeling to create automated robotic systems, covering everything from assembly to intelligent control.
Li-Fi Communication	Code, Li-Fi Components, PCB, Blueprints	Explore optical data transmission techniques using LED-based components and PCB designs, emphasizing secure, high-speed wireless communication methods.
Augmented Reality (AR)	Code, Applications, Simulators	Develop immersive AR experiences by overlaying digital content onto real-world environments using specialized coding tools, simulation software, and AR devices.
IoT & IIoT	Code, Applications, Components	Design and develop connected systems that enable real-time data exchange and automation across personal and industrial environments through robust networking and sensor integration.
Emotional Intelligence (Ei)	Engine and Sets of Instructions	Incorporate emotional intelligence into technology by leveraging specialized algorithms and instruction sets that enhance user-centric interactions and adaptive system responses.

This table provides a clear, structured view of the ACTS course modules, detailing the core components and practical outcomes of each technology, making it easy for anyone to understand how these advanced tools—like Raspberry Pi and other computational devices—are integrated into the program.

Below are two detailed workshop program tables—one for a 5-day workshop and another for a comprehensive 15-day workshop—designed to equip you with multidisciplinary skills in modern technologies.

5-Day Workshop Program

Day	Topics	Activities and Outcomes
1	Introduction and Overview	Kick off the workshop with an in-depth overview of ACTS, covering key technology areas such as full stack development, AI, ML, IoT, robotics, embedded systems, and AR. Hands-on introductory labs help you set up the development environment and get familiar with essential tools.
2	Embedded Systems and Sensor Integration	Dive into the fundamentals of embedded systems using platforms like Arduino and Raspberry Pi. Engage in practical exercises on sensor interfacing, circuit design, and data acquisition to build simple projects that demonstrate hardware-software integration.
3	Artificial Intelligence and Machine Learning	Explore AI and ML basics, including data processing and predictive analytics. Participate in hands-on projects to build and test simple machine learning models using Python, enhancing your understanding of data-driven decision-making.
4	Multidisciplinary Integration: IoT, Robotics, and AR	Collaborate on projects that integrate IoT devices, robotics, and AR. Develop responsive interfaces and real-time data visualizations to solve practical challenges, fostering a hands-on understanding of interconnected systems.
5	Project Presentations and Career Guidance	Present your group projects to peers and industry experts, receive constructive feedback, and participate in career guidance sessions. Learn about internship opportunities, job referrals, and how to build a portfolio that stands out in the tech industry.

15-Day Workshop Program

Day	Topics	Activities and Outcomes
1	Full Stack Development Fundamentals – Overview	Begin with an introduction to full stack development, covering both front-end and back-end technologies. Set up your development environment and gain familiarity with tools such as React, Flask, and MongoDB.
2	Front-End Development with React	Engage in detailed sessions focused on building dynamic and responsive user interfaces using React. Complete hands-on labs to create interactive web components and enhance UI design skills.
3	Back-End Development and Database Integration	Focus on server-side application development using Flask. Learn database management with MongoDB and connect your back-end logic to front-end interfaces through practical exercises.
4	Introduction to Embedded Systems	Gain a foundational understanding of embedded systems with hands-on experience using Arduino and Raspberry Pi. Learn basic circuit design, sensor interfacing, and hardware configuration through guided labs.
5	Sensor Interfacing and Hardware Prototyping	Participate in practical sessions that emphasize connecting various sensors and actuators. Build prototypes that capture real-world data, strengthening your hardware-software integration skills.
6	Basics of Robotics Integration	Delve into robotics fundamentals by assembling and programming simple robotic systems using Arduino. Explore motor control, sensor-based navigation, and basic automation techniques.
7	Fundamentals of AI and Machine Learning	Receive theoretical and practical instruction on AI and ML concepts, focusing on data pre-processing and introductory algorithms. Engage in lab activities that demonstrate how AI can drive intelligent systems.
8	Building and Training ML Models	Work hands-on with machine learning frameworks to develop and train simple models. Experiment with small datasets to understand model training, evaluation, and iterative improvements.
9	Deep Dive into AI and Real-Time Analytics	Advance your AI/ML skills with a focus on real-time data processing and analytics. Refine your models and integrate them into applications that simulate practical scenarios and dynamic data environments.
10	Introduction to IoT and IIoT Concepts	Explore the foundational concepts of IoT and IIoT, including networking protocols, secure connectivity, and data transmission. Participate in practical exercises to set up IoT devices for data collection and monitoring.
11	Hands-On IoT Project Development	Develop a comprehensive IoT project that integrates sensor data with cloud computing and real-time visualization. Focus on building scalable and secure IoT ecosystems through practical project work.
12	Advanced Communication: LiFi Integration	Learn the principles of LiFi communication and its advantages over traditional wireless methods. Set up LED transmitters and photodiode receivers in hands-on labs to achieve high-speed, secure data transfer.
13	Introduction to Augmented Reality (AR)	Discover AR technologies and their transformative potential. Engage in practical labs that utilize AR development tools to overlay digital content onto real-world environments using smartphones, tablets, or AR headsets.
14	Integrating AR with Emerging Technologies	Work on collaborative projects that merge AR with AI, IoT, embedded systems, and robotics. Create innovative, interactive solutions that demonstrate the seamless integration of digital and physical realms.
15	Multidisciplinary Capstone Project & Final Presentations	Conclude the workshop with a capstone project that combines all the technologies explored throughout the program. Present your project to industry experts, receive feedback, and participate in career and innovation guidance sessions to prepare for professional opportunities.

These tables offer a detailed roadmap for both short-term and extended workshop programs, ensuring that participants at all levels—from beginners to professionals—gain the skills and hands-on experience necessary to excel in today’s dynamic tech landscape.

Below are two comprehensive workshop program tables—one for a 30 to 45-day extended workshop and another for a 60-day intensive workshop. These programs are designed to cover a full spectrum of advanced technologies, integrating full stack development, embedded systems, AI/ML, robotics, IoT/IIoT, Augmented Reality, LiFi Communication, and multidisciplinary capstone projects to prepare you for real-world challenges and industry demands.

30–45 Day Extended Workshop Program

Week/Days	Topics	Activities and Outcomes
Week 1 (Days 1–5)	Full Stack Development FundamentalsIntroduction to React, Flask, MongoDB, and cloud/server setup	Orientation and environment setup, hands-on labs to create basic web applications, understanding front-end/back-end integration, and establishing a solid coding foundation.
Week 2 (Days 6–10)	Embedded Systems and IoT BasicsArduino, Raspberry Pi, sensor interfacing, networking protocols	Practical exercises on building circuits, interfacing sensors and actuators, setting up simple IoT devices, and learning data acquisition fundamentals.
Week 3 (Days 11–15)	Artificial Intelligence and Machine LearningData processing, algorithms, and predictive modeling	Interactive coding sessions using Python to build and train simple ML models, data pre-processing, and applying basic AI algorithms to solve predictive challenges.
Week 4 (Days 16–20)	Robotics and AutomationBasics of robotics, motor control, sensor integration, and introductory ROS	Hands-on robotics labs where you assemble and program simple robotic systems, develop sensor-based navigation, and get introduced to robotics operating systems.
Week 5 (Days 21–25)	Augmented Reality and LiFi CommunicationAR development, optical communication, and smart interfaces	AR project labs using smartphones, tablets, or AR headsets to overlay digital content, alongside LiFi experiments using LED transmitters and photodiode receivers for secure, high-speed data transfer.
Week 6 (Days 26–30/45)	Multidisciplinary Capstone Projects & Industry IntegrationIntegration of learned technologies into comprehensive projects	Collaborative team projects that combine elements from full stack, embedded systems, AI/ML, robotics, IoT, AR, and LiFi. Additional days (up to 45 days) allow for further refinement, detailed mentorship sessions, final project presentations, and career guidance.

60-Day Intensive Workshop Program

Week (Days)	Topics	Activities and Outcomes
Weeks 1–2 (Days 1–10)	Full Stack Development & Programming FoundationsReact, Flask, MongoDB, cloud computing, and server management	Comprehensive orientation and advanced coding labs to build full stack applications, integrate cloud services, and establish robust development environments.
Weeks 3–4 (Days 11–20)	Advanced Embedded Systems and IoTArduino, Raspberry Pi, sensor interfacing, NAS, and secure networking	In-depth hardware sessions focusing on advanced sensor integration, circuit design, IoT device setup, real-time data acquisition, and configuring network protocols for seamless connectivity.
Weeks 5–6 (Days 21–30)	Artificial Intelligence & Machine Learning MasteryAdvanced algorithms, deep learning, real-time analytics, and model optimization	Extensive workshops on AI/ML including deep learning techniques, hands-on projects with large datasets, iterative model training, and integration of predictive analytics into applications.
Weeks 7–8 (Days 31–40)	Robotics and Automation in PracticeAdvanced robotics design, autonomous systems, integration with AI/ML, and ROS in depth	Building sophisticated robotic systems with advanced motor control and sensor fusion, developing autonomous navigation projects, and integrating robotics with AI for smart automation.
Weeks 9–10 (Days 41–50)	Augmented Reality & LiFi CommunicationImmersive AR development and optical data transmission techniques	Advanced AR labs where you create interactive, real-time AR applications, coupled with LiFi communication experiments to understand and implement high-speed, secure wireless data transfer.
Weeks 11–12 (Days 51–60)	Multidisciplinary Capstone and Industry ReadinessIntegration of full stack, embedded systems, AI/ML, robotics, AR, and IoT into unified projects	Final phase dedicated to capstone projects that solve real-world problems by blending all learned technologies. This includes team-based project development, iterative testing, final presentations, expert mentorship, and career development workshops to prepare you for industry roles.

These detailed programs provide a structured yet flexible roadmap, ensuring that whether you opt for the 30–45 day workshop or the 60-day intensive program, you’ll gain deep insights, practical experience, and industry-relevant skills to excel in today’s fast-paced technological landscape.

Brain and Computer Interface (BCI) is a revolutionary technology that connects the human mind directly with digital systems, enabling thought-driven control over devices. In Tishitu’s ACTS course, you dive deep into neural signal processing, learning to capture, analyze, and interpret brain data using advanced sensors and machine learning algorithms. The curriculum emphasizes hands-on projects where you build innovative interfaces that translate neural activity into real-world actions, from controlling robotic limbs to immersive gaming experiences. By integrating BCI with AI, IoT, robotics, and embedded systems, the program fosters multidisciplinary solutions that enhance healthcare, assistive technology, and virtual reality applications. Participants explore applications like neuroprosthetics and brain-controlled machinery, merging cognitive science with cutting-edge engineering. Ethical considerations and practical implementations are a key focus, ensuring responsible innovation in this emerging field. With its comprehensive, project-based approach, ACTS empowers you to push the boundaries of human-computer interaction. Ultimately, you gain the skills to transform neural data into actionable intelligence, reshaping the future of connectivity and control.

“हिंदी के लिए इसे सुनें।”

Artificial intelligence (AI) is a transformative technology that empowers machines to mimic human cognition and solve complex problems. Within Tishitu’s ACTS course, AI is a central pillar, where participants explore its broad applications across industries such as healthcare, education, finance, and manufacturing. The curriculum covers the fundamentals of machine learning, deep learning, natural language processing, and computer vision to build intelligent systems. Learners engage in hands-on projects that develop smart applications, predictive analytics, and adaptive interfaces to tackle real-world challenges. AI is integrated with emerging technologies like IoT, robotics, and embedded systems, enabling the creation of interconnected, responsive solutions. Participants develop algorithms and models that process vast amounts of data to extract actionable insights and drive decision-making. This multidisciplinary approach equips you with the skills needed to innovate and streamline processes in diverse sectors. Ultimately, Tishitu’s ACTS course empowers you to lead the next wave of technological advancement in artificial intelligence.

“AI, or Artificial Intelligence, is the technology that enables machines to simulate human intelligence and perform tasks such as learning, problem-solving, and decision-making. By leveraging vast data and powerful algorithms, AI enhances automation, personalizes user experiences, and drives insights across various industries. From chatbots to advanced data analytics, AI transforms how we interact with technology, making systems smarter and more efficient.”
A notable application of AI is in deepfake technology, which uses advanced algorithms to create hyper-realistic synthetic media by altering or generating human images, videos, or voices. While deepfake technology has practical applications in entertainment and media, it also highlights the importance of ethical AI usage and the need for safeguards against misuse. Harnessing AI responsibly opens doors to innovation, personalization, and smarter systems.”

Augmented Reality (AR) is a transformative technology that overlays digital information onto the real world using devices like smartphones, tablets, and AR headsets. Within Tishitu’s ACTS course, AR is a key domain where participants explore its vast applications across industries such as healthcare, education, manufacturing, and entertainment. The course examines AR as both a standalone technology and in combination with advanced fields like AI, IoT, and embedded systems. Participants engage in hands-on projects that integrate AR with AI to build smart, responsive interfaces, such as AR-assisted diagnostics and real-time industrial data visualizations. Learners experiment with practical applications, from visualizing ECG data to enhancing machine maintenance and assembly workflows. By merging AR with emerging technologies, the program prepares participants to tackle real-world challenges and drive innovative solutions. The curriculum highlights AR’s potential to create immersive, interactive experiences that revolutionize user engagement and operational efficiency. Ultimately, Tishitu’s ACTS course equips you with the multidisciplinary skills needed to lead the next wave of technological advancement in augmented reality.

Welcome to the ACTS Program—a groundbreaking fusion where emotional intelligence meets augmented reality, powered by NLP, machine learning, LLM, and AI. Imagine an immersive experience that not only transforms your environment but also deciphers your emotional cues in real time. Our advanced NLP technology reads the room—and you—while machine learning and large language models tailor interactive AR experiences to enhance self-awareness and foster deeper connections. With ACTS, you step into a future where every interaction is smart, intuitive, and dynamically personalized. Ready to revolutionize the way you connect and grow? Let’s shape a smarter, more empathetic tomorrow together.

Machine Learning (ML) powers modern innovation and is at the heart of Tishitu’s ACTS course. In this immersive program, ML takes center stage, seamlessly integrating with AR, AI, IoT, and embedded systems. Students engage in hands-on projects to build predictive models and intelligent interfaces. They explore diverse applications across industries such as healthcare, education, manufacturing, and entertainment.
Learners are encouraged to visualize and analyze real-time data to derive actionable insights. The course balances theoretical foundations with practical implementations to solve real-world challenges. Participants develop innovative solutions that push the boundaries of emerging technologies. With ACTS, you’re not just mastering ML—you’re shaping the future of technology and transforming industries.

Full stack development is the main focus now in Tishitu’s ACTS course. The curriculum centers on building complete web applications using modern frameworks like React for the front end and Flask for the back end. Students create dynamic applications that integrate machine learning, AR, AI, IoT, and embedded systems for enhanced functionality. They work with MongoDB for efficient data management while configuring robust Apache servers to ensure reliable hosting. The course also covers NAS setups, cloud computing, and custom server router configurations to optimize performance. Learners manage webspace control panels and develop real-time applications and APIs for interactive user experiences. Projects span diverse industries such as healthcare, education, manufacturing, and entertainment, offering comprehensive hands-on experience. With this integrated approach, the ACTS course equips you with the essential skills to innovate and shape the future of technology.

Robotics is the main focus of Tishitu’s ACTS course, where learners design and build intelligent robotic systems. The curriculum integrates advanced sensors, actuators, and embedded controllers to create responsive machines. Participants work with industry-standard frameworks like ROS and program in Python and C++ to develop robust control algorithms. Machine learning and computer vision techniques are incorporated to enable robots to navigate and interact with complex environments. Students gain hands-on experience with hardware prototyping and real-time system integration, ensuring their designs are both innovative and practical. The course emphasizes IoT-enabled communication, connecting robots to broader networks for enhanced functionality. Simulation tools and advanced design principles are used to optimize performance and efficiency. With this comprehensive approach, the ACTS course empowers you to innovate and shape the future of robotics technology.

Embedded systems are at the core of Tishitu’s ACTS course, bridging the gap between hardware and software in innovative ways. The curriculum is designed to offer in-depth training on microcontroller programming and low-level hardware integration. Students work with platforms like Arduino and Raspberry Pi to gain hands-on experience with sensor and actuator interfacing. The program emphasizes real-time system design, ensuring that devices perform efficiently and reliably. Advanced topics, such as power management and communication protocols, are explored to optimize device performance. Learners also integrate embedded systems with IoT, cloud computing, and machine learning to create smart, connected solutions. Practical projects simulate real-world challenges in automation, robotics, and industrial control. With this comprehensive approach, the ACTS course empowers you to innovate and shape the future of embedded systems technology.

IoT and IIoT are at the forefront of digital transformation in Tishitu’s ACTS course. Students explore the seamless integration of smart devices and sensors to collect and analyze real-time data. The curriculum covers foundational networking protocols, wireless communication, and secure connectivity. Learners work with cutting-edge platforms to design solutions that bridge the gap between the digital and physical worlds. Hands-on projects include developing remote monitoring systems and automating industrial processes. The program emphasizes edge computing and cloud integration to support scalable IoT ecosystems. Innovative applications span smart homes, industrial automation, and predictive maintenance in manufacturing. With a comprehensive approach, ACTS empowers you to drive innovation in both IoT and IIoT, shaping the future of connected technology.

LiFi communication offers a cutting-edge, high-speed alternative to conventional WiFi by harnessing visible light for data transmission. Tishitu’s ACTS course integrates LiFi technology into its curriculum to explore its transformative impact on wireless communication. Students delve into the principles of optical modulation and photonics, gaining a deep understanding of LiFi’s operational mechanics. They work on hands-on projects that involve setting up LED transmitters and photodiode receivers to experiment with data transfer rates. The course examines the advantages of LiFi, including enhanced security and reduced electromagnetic interference. Participants also study the challenges of LiFi, such as line-of-sight limitations and ambient light disruptions. Integration with IoT and smart systems is emphasized to demonstrate how LiFi can enhance overall connectivity. Through comprehensive training and practical applications, ACTS empowers you to innovate and lead in the evolving field of LiFi communication.

“Real Life Example of ACTS Advanced Computational and Technical Skills: Li-Fi Audio and Data Communication…”

“हिंदी के लिए इसे सुनें।”

Tishitu’s ACTS course empowers you to harness a spectrum of cutting-edge technologies to drive innovative multidisciplinary projects. Full stack development forms the backbone, integrating React, Flask, MongoDB, and advanced server configurations to build robust digital platforms. Machine learning algorithms are embedded within these systems to deliver intelligent insights and predictive analytics that optimize decision-making. Robotics and embedded systems merge to create smart machines equipped with sensors and actuators for precise, real-time control. IoT and IIoT connectivity ensure seamless communication between devices, forming an interconnected ecosystem that enhances automation and monitoring. LiFi communication introduces ultra-fast, secure data transfer capabilities that complement traditional wireless networks. This integrated approach allows you to develop projects that simulate real-world applications in sectors such as healthcare, manufacturing, and smart cities. By combining these diverse technologies, the ACTS course equips you with comprehensive skills to innovate, streamline performance, and shape the future of technology.

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“हिंदी के लिए इसे सुनें।”

“ACTS Course has been around since 1999, and the video you’re watching was taken 7 years ago.”

“ACTS Course, which was finally created at Malaviya National Institute of Technology (MNIT) in year 2019, Jaipur., has recently opened up for junior students in grades 10 to 12, engineering students from 1st to final year, as well as professionals and PhD research scholars.”

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#GITJAIPUR has organized an Expert Talk on Embedded System & AI on 12/08/19. The Speaker was Dr. Tarun Shrivastava, Dr. Vaishali & Ms. Nipur Shrivastava from Tishitu Research & Innovation & Incubation Center MNIT Jaipur.#git #gct #Tishitu #ArtificialIntelligence #EmbeddedSystem pic.twitter.com/LXTLJrudq8
— GIT Jaipur (@GIT_Jaipur) August 14, 2019

Editorial Group: Tarun Shrivastava, Anand Sharma, Sunil Kumar Jangir, Manish Kumar, Dilip Kumar Choubey, S. Balamurugan This book focuses on the key technologies, challenges, and research directions of the Industrial Internet of Things (IIoT). It provides a comprehensive discussion on fundamental principles, methods, and research problems while offering a systematic overview of current state-of-the-art research, emerging trends, and potential challenges related to IIoT.

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I’m so excited to finally share that my book is published, and it explores an amazing topic: the Internet’s shift from the Internet of Computers (IoC) to the Internet of Things (IoT)! This evolution is opening doors for businesses to access real-time data from all their physical operations, transforming industries across the globe!

What’s even more exciting is the rise of the Industrial Internet of Things (IIoT)! This is where things get really fascinating—sensors embedded in industrial devices collect and share data through wireless networks. While IoT is making our daily lives more fun and convenient, IIoT is revolutionizing industries by making them more efficient, smarter, and way more competitive!

But wait, there’s more! The next big leap is Tactile IoT/IIoT, which brings together AI, machine learning (ML), edge computing, and hyperconnectivity! This is the driving force behind the Industry 4.0 revolution. Initially, we were using fog and edge computing to boost connectivity, but now AI and ML-powered analytics have stepped in as game-changers. AI is at the heart of this transformation, allowing businesses to analyze huge amounts of data faster, and make decisions smarter—sometimes without any human input at all!

In this rapidly changing landscape, AI and ML are the driving force behind the next wave of industrial innovation. This is what my book dives into—the ways AI and ML are shaping the future of IIoT and unlocking its full potential for industries around the world. It’s a thrilling time to be a part of this revolution, and I’m so pumped to share this journey with everyone!

Key Highlights from the Book:

From IoC to IoT: The Internet is moving from a network of computers to a network of things! This means industries can now access real-time data on their operations, transforming business processes across all sectors.
What is IIoT? : The Industrial Internet of Things (IIoT) uses sensors embedded in industrial equipment to collect and share data over wireless networks. Unlike IoT, which is about personal convenience, IIoT focuses on optimizing industrial efficiency and decision-making.
Tactile IoT/IIoT: The next evolution combines hyperconnectivity, edge computing, AI, and machine learning (ML). It’s all about making industries smarter, more connected, and ready for the future.
AI and ML in IIoT: AI and ML are transforming how IIoT data is analyzed. These technologies enable businesses to automate processes, simulate intelligent behavior in devices, and make faster, more accurate decisions—sometimes with no human intervention needed!
Industry 4.0 Revolution: The book dives deep into how Industry 4.0 relies on technologies like IIoT to revolutionize entire industries. It’s no longer just about connecting devices—analytics powered by AI and ML are now central to driving industrial change.