Lower limb Rehabilitation Robots (LLRRs) assist in therapeutic tasks that involve gait recovery and joint mobility recovery of the lower limbs, in patients recovering from neurologic injuries such as stroke as well as spinal cord injury. LLRRs can sometimes be driven by preprogrammed trajectories or Inverse Kinematics (IK) trajectories, which bring increased computational demand and command supported interaction. This paper proposes an interactive control framework for LLRRs using a hybrid mix of Forward Kinematics (FK) driven movement and an offline Voice Conversational Agent (VCA), based on the Vosk speech recognition engine. The framework proposed is modular in nature that is completely “local”, running offline with no need for the Internet, preserving privacy, and not needing to send uploads cards to cloud processing units. Spoken commands, such as “forward”, “backward”, “rest”, “exercise”, and “stop” are mapped to hip and knee joint angles, which are then driven to FK equations for deriving leg segment positions in an ongoing manner. A hybrid MATLAB-Python implementation is used, where MATLAB is used for simulation and animation, while Python captures the audio input and runs the offline speech recognition component. Recognized transcripts are resolved through fuzzy command matching and are followed by a confidence gated execution to improve tolerance to Automatic Speech Recognition (ASR) variability. Under controlled conditions, command recognition accuracy ranging from 80% to 95%, with end-to-end latencies ranging from 0.89 to 1.32 sec. were seen for the evaluated commands. The performance of feasible offline voice guided interaction and reasonably smooth, anatomically consistent motion transitions, as shown in simulation, provide evidence for the working of the proposed architecture. The main contribution of the work lies in the explicit exposure of ASR offline, fuzzy command matching, applying confidence gated execution, and the use of FK based motion generation, all within a lightweight LLRR oriented framework. This should be enough substrate for future hardware validation, and phase synchronized wearables deployment.
In modern technology, the ownership of electronic data is the key to securing their privacy and identity from any trace or interference. Therefore, a new identity management system called Digital Identity Management, implemented throughout recent years, acts as a holder of the identity data to maintain the holder’s privacy and prevent identity theft. Therefore, an overwhelming number of users have two major problems, users who own data and third-party applications will handle it, and users who have no ownership of their data. Maintaining these identities will be a challenge these days. This paper proposes a system that solves the problem using blockchain technology for Digital Identity Management systems. Blockchain is a powerful techniqu
... Show MoreAlPO4 solid acid catalyst was prepared in order to use it in transesterification reaction of edible oil after supporting it with tungsten oxide. The maximum conversion of edible oil was obtained 78.78% at catalyst concentration (5gm.), temperature 70°Ϲ, 30/1 methanol/edible oil molar ratio, and time 5hr. The study of kinetics of the transesterification reaction of edible oil indicates that the reaction has an order of 3/2, while the value of activation energy for transesterification reaction is 51.367 kJ/mole and frequency factor equal 26219.13(L/ mol.minute).
The manuscript should contain an abstract. The abstract should be self-contained and citation-free and should not exceed 200 words. The abstract should state the purpose, approach, results and conclusions of the work. The author should assume that the reader has some knowledge of the subject but has not read the paper. Thus, the abstract should be intelligible and complete in it-self (no numerical references); it should not cite figures, tables, or sections of the paper. The abstract should be written using third person instead of first perso The fast microwave assisted pyrolysis (FMWAP) of water hyacinth (WH) for biochar production is investigated. Taguchi’s method was used to optimize FMWAP parameters. The effects of microwave
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