DESC:ABSTRACT
A hybrid interactive system for imparting and assessing Ayurvedic diagnostic skills is disclosed. The system comprises (i) a life size mannequin having a skin mimicking elastomer covering, a tri channel programmable pulse generator and distributed sensors selected from pressure, temperature, stretch and capacitive types; (ii) a network connected computing platform hosting a symptom–disease context matrix, case simulation repository and rules engine; and (iii) a graphical or augmented reality user interface through which learners palpate the mannequin, receive haptic and visual feedback, and progress through scripted virtual patient encounters (iv) AyuRAKSA, a structured clinical-documentation layer that standardizes Ayurvedic records for tele-health and educational use. A processor executes stored instructions to acquire sensor data, correlate user actions with reference thresholds and display graded feedback while logging performance metrics. Telehealth functionality enables real time remote mentoring.

Figure 1

,CLAIMS:WE CLAIM:
1. A hybrid interactive system for clinical Ayurveda simulation, telehealth and a platform for educational purposes comprising of:
a) an interactive computer system with a graphical user interface (GUI) configured to receive user input comprising symptoms;
b) a clinical simulation repository comprising multimedia-based simulations of diverse stages;
c) a specialized mannequin configured for immersive hands-on training, including pulse diagnosis and Marma point identification;
d) a server-side system configured to store a symptom-based disease repository comprising a symptom-disease-context matrix;
e) a telehealth module enabling remote healthcare delivery and practitioner-patient interaction;
f) a data processing unit configured to process sensor data from the mannequin and present it visually on the GUI;
g) an AyuRAKSA clinical-documentation framework that generates structured electronic notes for each encounter,
wherein the system integrates artificial intelligence and augmented/virtual reality technologies for immersive learning and supports continuous updating of repositories.
2 The system as claimed in claim 1, wherein said hybrid interactive system comprises of AyurMannequin with sensors and covering material.
3 The system as claimed in claim 1 and claim 2, wherein said pulse simulation at wrist section are integrated with high-fidelity materials, resembling the tactile properties of human skin and the underlying radial artery, ensuring a realistic pulse palpation experience.
4 The system as claimed in claim 1 and claim2, wherein said Marma points are integrated with pressure-sensitive sensors and haptic feedback mechanisms to simulate the tactile experience of Marma therapy.
5 The system as claimed in claim 1, wherein said mannequin comprises of plurality of sensors such as:
- high resolution sensors;
- temperature sensors;
- stretch sensors;
- capacitive sensors;
- biofeedback sensors;
6 The system as claimed in claim 1 further comprising an integrated learning system with a software interface for real-time feedback for customizable health scenario simulations;
7 The system as claimed in claim 6 further comprises an integrated learning system with a software interface for real-time feedback comprises of:
- Django and React.js for scalability and interactive user interfaces
- API for framework
- MySQl for data storage
8 The system as claimed in claim 1, wherein the server-side system further comprises algorithms for data processing and analysis, including decision trees
9 The system as claimed in claim 1, wherein the system is configured to provide a plurality of modules, comprising:
? Rogipariksha (Patient Examination) module;
? Rogapariksa (Diagnosis) module;
? Aushadha Nirupana (Medication) module;
? Kriyakrama (Treatment) module;
? Phala / Siddhivimarsha (Outcome) module;
? Anubandha (Follow-up) module;
? Mannequin module.

10 A method for constructing an educational AyurMannequin as claimed in claims 1-5, using materials that simulate the tactile properties of human skin and tissues, designed for durability and ease of maintenance.
11 The system as claimed in claim 1, wherein the pulse simulation and Marma point feedback systems are programmable to reflect a wide range of health conditions and dosha imbalances, supporting comprehensive diagnostic skill development.
12 The system as claimed in claim 1-11, wherein the AyuRAKSA module is configured to standardize and compile subjective data, objective findings, disease assessment, treatment plan, intervention details, outcome evaluation and revision notes in a machine-readable format that mirrors the Rogipariksha, Rogapariksha, Aushadha Nirupana, Kriyakrama, Phala and Anubandha stages of Ayurvedic practice