Our Publications
Wearable and Wireless Systems for Healthcare I :
Gait and Reflex Response Quantification
By Robert LeMoyne and Timothy Mastroianni
This book provides visionary perspective and interpretation regarding the role of wearable and wireless systems for the domain of gait and reflex response quantification. These observations are brought together in their application to smartphones and other portable media devices to quantify gait and reflex response in the context of machine learning for diagnostic classification and integration with the Internet of things and cloud computing. The perspective of this book is from the first-in-the-world application of these devices, as in smartphones, for quantifying gait and reflex response, to the current state of the art. Dr. LeMoyne has published multiple groundbreaking applications using smartphones and portable media devices to quantify gait and reflex response.
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Wearable and Wireless Systems for Healthcare II :
Movement Disorder Evaluation and Deep Brain Stimulation Systems
By Robert LeMoyne , Timothy Mastroianni , Donald Whiting and Nestor Tomycz
This book provides a far-sighted perspective on the role of wearable and wireless systems for movement disorder evaluation, such as Parkinson’s disease and Essential tremor. These observations are brought together in the application of quantified feedback for deep brain stimulation systems using the wireless accelerometer and gyroscope of a smartphone to determine tuning efficacy. The perspective of the book ranges from the pioneering application of these devices, such as the smartphone, for quantifying Parkinson’s disease and Essential tremor characteristics, to the current state of the art. Dr. LeMoyne has published multiple first-of-their-kind applications using smartphones to quantify movement disorder, with associated extrapolation to portable media devices.
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By Robert LeMoyne and Timothy Mastroianni
The book presents the confluence of wearable and wireless inertial sensor systems, such as a smartphone, for deep brain stimulation for treating movement disorders, such as essential tremor, and machine learning. The machine learning distinguishes between distinct deep brain stimulation settings, such as ‘On’ and ‘Off’ status. This achievement demonstrates preliminary insight with respect to the concept of Network Centric Therapy, which essentially represents the Internet of Things for healthcare and the biomedical industry, inclusive of wearable and wireless inertial sensor systems, machine learning, and access to Cloud computing resources.Imperative to the realization of these objectives is the organization of the software development process. Requirements and pseudo code are derived, and software automation using Python for post-processing the inertial sensor signal data to a feature set for machine learning is progressively developed. A perspective of machine learning in terms of a conceptual basis and operational overview is provided. Subsequently, an assortment of machine learning algorithms is evaluated based on quantification of a reach and grasp task for essential tremor using a smartphone as a wearable and wireless accelerometer system.Furthermore, these skills regarding the software development process and machine learning applications with wearable and wireless inertial sensor systems enable new and novel biomedical research only bounded by the reader’s creativity.
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Mission
We specialize in crafting innovative products and services tailored to deciphering and addressing distinct human behaviors. Our offerings are designed to not only foresee challenges but also to furnish effective solutions for our clients’ workforce. Our expertise extends to consulting in cognitive brain functions, cognitive brain imaging, as well as the development of devices in this realm. We consult on various technologies including bio neurofeedback, inertial sensors, haptics, visual and aural interfaces that provide anatomical reminders catering to industries spanning health, sports, and military sectors.