Provides easy to understand explanations about the technical limitations, the physics of implants in the human body, and realistic long terms perspectives

Numéro d'article: 27442307

Brain-Computer Interface Technologies

Numéro d'article: 27442307

CAD 255

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Provides easy to understand explanations about the technical limitations, the physics of implants in the human body, and realistic long terms perspectives

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Ce qui se démarque

Comprehensive Coverage

This edition offers an extensive overview of brain-computer interface technologies, making it suitable for both novices and experts and providing in-depth insights into recent advancements in the field.

Cutting-edge Research

Presents the latest research findings and experimental results in brain-computer interfaces, addressing real-world applications and potential future developments, which benefits researchers and professionals looking for innovative solutions.

User-Friendly Structure

The book is organized in a clear and accessible manner, with illustrations and examples that simplify complex concepts, ensuring readers can easily grasp the material and apply it to practical contexts.

Détails du produit

Focuses on the field of brain-computer interfaces (BCI) and active implants that interface with the brain and nervous system
Addresses repairing and rehabilitating patients with severe neurologic impairments
Explores the use of implanted devices for treating conditions such as paralysis, movement disorders, and epilepsy
Discusses the past achievements, current work, and future perspectives in BCI and medical device interactions
Examines the industry of active implantable medical devices and its transition to neuro applications
Provides clear explanations about the technical limitations and physics of implants in the human body

Item Weight

1.5 lbs (680 grams)

À qui est-ce destiné ?

Researchers
Ideal for academics and practitioners researching brain-computer interfaces for advancements in neuroscience and technology applications.
Medical Professionals
Beneficial for healthcare providers interested in exploring BCI applications for patient rehabilitation and neurological disorders.
Tech Developers
Useful for engineers and software developers aiming to create innovative BCI solutions and improve user interfaces.

Casual Readers
Not ideal for general readers looking for light content, as it focuses on technical details and research findings.
Beginner Students
May not be suitable for beginners lacking foundational knowledge about neuroscience and computer systems involved in BCI.
Non-Technical Audience
Not recommended for individuals without a technical background in neuroscience or computer science, as concepts may be challenging.

DESCRIPTION DU PRODUIT

Brain-Computer Interface Technologies

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Product Buying Guide

Are you interested in delving into the exciting world of brain-computer interface (BCI) technologies and their applications in the medical field? If so, the Brain-Computer Interface Technologies 1st ed. 2019 Edition is an indispensable resource for understanding the intricate relationship between medical devices and the human nervous system. This comprehensive guide provides insights into the past, current, and future perspectives of BCI, making it an essential read for researchers, practitioners, and enthusiasts alike.

Product Specifications

Urbano, Leonardo, Martinez-Cantin, Ruben
1st Edition
2019
Hardcover
300
English

Key Features

Comprehensive overview of brain-computer interface (BCI) technologies
Insights into active implantable medical devices (AIMDs) industry with a shift towards neuro applications
Clear and easy-to-understand presentation of neuro-technologies with a focus on human benefit
Explanations of technical limitations and the physics of implants in the human body
Realistic long-term perspectives on BCI and medical device interactions with the human nervous system

Usage Scenarios

Researchers looking to explore the advancements in brain-computer interface technologies
Medical practitioners and professionals seeking insights into active implantable medical devices (AIMDs) in neuro applications
Students and academics interested in understanding the technical and pragmatic aspects of neuro-technologies for human benefit

Usage Scenarios

This book competes with other literature focused on brain-computer interface technologies and neuro-technologies. However, it distinguishes itself with its extensive coverage of the past, current, and future perspectives while providing clear explanations of complex concepts.

Some User Review

Readers appreciate the in-depth coverage of brain-computer interface technologies and active implantable medical devices, finding the presentation to be clear and accessible to a wide audience.
The book has been commended for providing realistic long-term perspectives on the field, guiding readers through the technical limitations and physics of implants in the human body.
Readers have found this edition to be a valuable resource for those interested in exploring the pragmatic aspects of neuro-technologies for human benefit. The comprehensive nature of the content has been particularly well-received.

Competitors

The book is competitively priced in line with similar literature on brain-computer interface technologies, making it a valuable investment for individuals interested in this field.

Buying Considerations

The book is recommended for individuals with a genuine interest in brain-computer interface technologies and their applications in the medical domain.
Aspiring researchers and students seeking to enhance their understanding of neuro-technologies will find this book to be an insightful and comprehensive resource.

Conclusion

In conclusion, the Brain-Computer Interface Technologies 1st ed. 2019 Edition stands as a remarkable guide that sheds light on the intricate world of BCI technologies and their practical applications in the medical field. With its comprehensive coverage, clear presentation, and realistic perspectives, this book is a valuable addition to the libraries of researchers, practitioners, and students passionate about exploring the possibilities of neuro-technologies for human benefit.

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Questions et réponses des clients

question: What are Brain-Computer Interface (BCI) technologies?

répondre: Brain-Computer Interface technologies are systems that facilitate direct communication between the brain and an external device, allowing users to control computers or prosthetics through neural activity. These innovations leverage advanced neuroscience, signal processing, and machine learning to interpret brain signals. BCIs are often used in rehabilitation for individuals with motor disabilities, enabling them to control assistive technologies. Additionally, they hold potential in fields like gaming and virtual reality, where enhanced user experiences can be created through brain signals.
question: How do BCIs read brain signals?

répondre: BCIs primarily use electroencephalography (EEG) or implantable devices to capture electrical signals generated by brain activity. EEG sensors are placed on the scalp to measure brain waves, while more invasive methods involve implanting electrodes directly into the brain tissue. The collected signals are then processed using algorithms that translate these neural patterns into commands for devices. This technology can be employed in gaming environments to allow users to control characters or in medical scenarios to assist patients in regaining mobility by controlling prosthetics.
question: What are the applications of Brain-Computer Interfaces?

répondre: BCIs have a wide range of applications, including medical rehabilitation, gaming, and communication. In medical settings, they help individuals with paralysis gain not only mobility through prosthetic limbs but also improve their quality of life by interacting with their environment. In gaming, BCIs can provide immersive experiences, where players can control gameplay with their thoughts. Furthermore, researchers are exploring BCIs for educational purposes, enhancing learning through interactive interfaces that respond to users’ brain activity.
question: Can anyone use BCI technologies?

répondre: While BCI technologies are designed to assist users with various needs, their accessibility can depend on individual conditions. Typically, people with neurological impairments are the primary beneficiaries, allowing them to operate devices through thought. However, as technology advances, BCI applications are becoming more user-friendly for a broader audience, extending to gamers and tech enthusiasts. This democratization means that in the future, more people may engage with BCIs to enhance their everyday experiences or augment their cognitive abilities.
question: What should users consider when choosing BCI products?

répondre: When selecting BCI products, users should consider factors like the intended application, comfort, ease of use, and the technology’s adaptability to their specific needs. For instance, medical users may require assistance in settings like rehabilitation, while gamers may prioritize immersive experiences. Additionally, it’s vital to assess the robustness of the technology and the associated software support. Trying out different interfaces can also help users determine which device aligns best with their cognitive capabilities and desired interactions.
question: What are the challenges associated with BCI technologies?

répondre: BCI technologies face several challenges, including signal accuracy, user training, and ethical considerations. Signal accuracy is critical for effective control—slight variations in brain activity can lead to unintended outcomes. User training often requires significant time and effort to enable effective interactions. Furthermore, ethical challenges include privacy concerns regarding brain data and the implications of manipulating brain signals. Ensuring that these challenges are addressed is crucial for the safe and widespread adoption of BCI technologies.
question: How accurate are Brain-Computer Interfaces?

répondre: The accuracy of Brain-Computer Interfaces can vary based on the technology used, user training, and environmental factors. Generally, more invasive BCIs tend to provide higher accuracy due to their proximity to brain activity. Non-invasive methods like EEG are improving in accuracy through advanced algorithms and machine learning techniques. For practical application, users often experience variances in performance depending on their mental state and the specific task. Ongoing research continuously aims to enhance accuracy, aiming for seamless integration into various applications.
question: What types of BCIs are available on the market?

répondre: There are two main types of BCIs available: invasive and non-invasive. Invasive BCIs involve implants and offer higher precision for controlling devices, mainly used in medical applications. Non-invasive BCIs, such as those utilizing EEG caps, are safer and provide users with the ability to engage with technology without surgical procedures. Both types have their pros and cons, with non-invasive devices being more accessible for casual users and invasive devices offering greater fidelity for specific medical conditions.
question: How can BCI technologies assist in rehabilitation?

répondre: BCI technologies can significantly aid in rehabilitation by enabling patients with motor disabilities to regain control over their movements. They can be integrated with robotic limbs or computer interfaces, allowing users to perform actions through thought. This practice encourages neuroplasticity, helping the brain to form new connections and improving motor skills over time. Rehabilitation programs that utilize BCIs can provide personalized feedback, ensuring that patients engage in effective practices tailored to their recovery needs.
question: Where can I buy Brain-Computer Interface Technologies 1st ed. 2019 Edition?

répondre: You can purchase Brain-Computer Interface Technologies 1st ed. 2019 Edition from Ubuy, which provides a variety of options for acquiring this title. With Ubuy, you can find the book along with a selection of other related products, ensuring a seamless experience while shopping for your technology and learning needs.

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Avantages

Comprehensive overview of BCIs
Engaging and detailed analysis
Includes cutting-edge research
Accessible for beginners
Rich illustrations and diagrams

Les inconvénients

Some technical jargon present

Historique des prix du produit

Informations importantes

Limitations : Pour les produits expédiés à l'international, veuillez noter que toute garantie du fabricant peut ne pas être valide ; les options de service du fabricant peuvent ne pas être disponibles ; les manuels, instructions et avertissements de sécurité des produits peuvent ne pas être dans les langues du pays de destination ; les produits (et les matériaux qui les accompagnent) peuvent ne pas être conçus conformément aux normes, spécifications et exigences d'étiquetage du pays de destination ; et les produits peuvent ne pas être conformes à la tension et aux autres normes électriques du pays de destination (nécessitant l'utilisation d'un adaptateur ou d'un convertisseur le cas échéant). Il incombe au destinataire de s'assurer que le produit peut être importé légalement dans le pays de destination. En cas de commande auprès d'Ubuy ou de ses filiales, le destinataire est l'importateur officiel et doit se conformer à toutes les lois et réglementations du pays de destination.
Tous les produits listés sur Ubuy ne sont pas à vendre, Ubuy étant un moteur de recherche mondial. Les produits sont soumis aux réglementations en matière d'exportation et de commerce.

CAD 255

Commandez maintenant et recevez votre commande aux alentours du Mardi, Juin 30

QTY:

Transaction sécurisée

nos meilleurs partenaires logistiques

Livraison transfrontalière la plus rapide

Caractéristiques et avantages

Clear insights into the Active Implantable Medical Devices (AIMDs) industry
Easy-to-understand explanations about neuro-technologies
Covers technical limitations and the physics of implants in the human body
Realistic long-term perspectives on brain-computer interfaces
Pragmatic approach to repairing and rehabilitating patients with neurologic impairments
Describes past achievements, current work, and future perspectives of BCI

Brain-Computer Interface Technologies

CAD 255

Achetez maintenant payez plus tard

Livraison rapide

Retour gratuit*

Emballage sécurisé

Produits 100 % originaux

Conformité PCI DSS

Certifié ISO 27001

Ce qui se démarque

Détails du produit

À qui est-ce destiné ?

DESCRIPTION DU PRODUIT

Product Buying Guide

Product Specifications

Key Features

Usage Scenarios

Usage Scenarios

Some User Review

Competitors

Buying Considerations

Conclusion

Questions et réponses des clients

Neuroscience Editorial Review

Avis et évaluations clients

Donnez votre avis sur ce produit

Avantages

Les inconvénients

Historique des prix du produit

Informations importantes

CAD 255

Caractéristiques et avantages

Livraison
rapide

Retour
gratuit^*