Welcome to the Kids' Library!

Search for books, movies, music, magazines, and more.

Back to Search Results

Available items only

Previous Record Next Record

Author

Panja, Ayan.

Title Biomedical sensors and smart sensing [electronic resource] : a beginner's guide / Ayan Kumar Panja, Amartya Mukherjee, Nilanjan Dey.

Imprint

London, UK : Academic Press, 2022.

Connect to
Available to Pittsburg State University patrons only.

Copies

Location	Call No.	OPAC Message	Status
Axe Elsevier ScienceDirect Ebook	Electronic Book	---	Available

Description	1 online resource
Note	Includes index.
	Print version record.
Contents	Intro -- Biomedical Sensors and Smart Sensing: A Beginner's Guide -- Copyright -- Contents -- Author's biographies -- Preface -- Acknowledgments -- About the book -- Chapter 1: Introduction -- 1.1. Biomedical sensors and system overview -- 1.2. Physical characteristics -- 1.2.1. Magnetic sensing -- 1.2.2. Electrical sensing -- 1.2.3. Acoustic sensing -- 1.3. System and signal -- 1.3.1. Measurement -- 1.3.2. Biopotentials -- 1.4. Sensor characteristics -- 1.4.1. Sensitivity of the sensor -- 1.4.2. Linearity -- 1.4.3. Sensing errors -- 1.5. Biopotential signal monitoring and biosensors -- 1.6. Conclusion -- References -- Chapter 2: Sensing and data gathering methodology -- 2.1. Signals and noise of sensors -- 2.1.1. Various classes of noise -- 2.1.2. Sensing and measurement -- 2.1.3. Calibration and error scenarios -- 2.2. Flow sensing and measurement technique -- 2.3. Ultrasound-based blood flow sensing -- 2.4. Force-sensing measurement -- 2.5. Foot force measurement using smart shoe -- 2.6. ECG sensing and measurement -- 2.6.1. Electrocardiogram systems -- 2.6.2. Calibration and lead -- 2.6.3. Real-time IoT-based ECG sensing application -- 2.6.4. Heart disease prediction mechanism -- 2.7. EEG fundamentals -- 2.8. EEG signal analysis and classification -- 2.9. Ultrasound sensing for tissues and fetal growth observation -- 2.9.1. Obstetrical sonography -- 2.10. Conclusion -- References -- Chapter 3: Medical signal processing -- 3.1. Overview -- 3.2. Time series analysis -- 3.2.1. Signal overview -- 3.2.2. Some approaches -- 3.2.2.1. Moving average -- 3.2.2.2. Autoregressive moving average -- 3.2.2.3. ARIMA -- 3.3. Multiscale signal processing -- 3.3.1. Various signal processing models -- 3.4. Biomedical imaging and analysis -- 3.4.1. Magnetic resonance imaging -- 3.4.2. Computed tomography -- 3.4.3. Ultrasound-based diagnosis.
	3.4.4. Abdominal imaging for computer-aided diagnosis -- 3.5. Image enhancement -- 3.6. Image classification technique -- 3.7. Wearable and implantable technologies -- 3.8. Conclusion -- References -- Chapter 4: Sensor data analysis -- 4.1. Machine learning preliminaries -- 4.2. Feature engineering -- 4.3. Perceptron learning -- 4.4. Application of machine learning on ECG data -- 4.4.1. ECG raw data classification -- 4.4.2. ECG image classification -- 4.4.3. ECG sound segmentation -- 4.5. Ambient medical data processing -- 4.5.1. Wearable healthcare -- 4.5.2. Wireless body area network -- 4.5.2.1. WBAN implementation for patient monitoring -- 4.6. Conclusion -- References -- Chapter 5: IoT and medical cyberphysical systems road map -- 5.1. Introduction -- 5.2. Ubiquitous sensing paradigm -- 5.2.1. Internet of medical things -- 5.2.2. Smart pill technology -- 5.3. IEEE 1918.1 tactile IoT -- 5.4. Functional architecture -- 5.5. Applications and services -- 5.5.1. Industrial automation -- 5.5.2. Robotics and motion planning -- 5.5.3. Healthcare applications -- 5.5.4. Augmented, virtual, and mixed reality applications -- 5.6. 5G and healthcare -- 5.7. Wi-fi and the femtocell -- 5.8. Software-defined networks -- 5.9. Slicing under SDN -- 5.10. Drone as a component of healthcare and MCPS -- 5.11. UAV-assisted COVID-19 monitoring -- 5.12. The use of sensors and IoT infrastructure to fight against COVID-19 -- 5.12.1. Smart thermometer -- 5.12.2. Networks and cloud robots -- 5.12.3. Autonomous vehicles -- 5.13. Drone delivery in COVID-19 situation -- 5.14. COVID-19 prediction modeling -- 5.15. Conclusion -- References -- Chapter 6: Smart perishable food and medicine management overview -- 6.1. Introduction -- 6.2. Food and medical supply chain perspective -- 6.2.1. Food supply chain -- 6.2.2. Medicine supply chain management.
	6.3. Internet of things concepts -- 6.4. Literature survey -- 6.5. The ecosystem of the IoT-based system -- 6.5.1. IoT solution for medicine -- 6.5.2. Hybrid vehicular DTN-based IoT methodology -- 6.5.3. DTN-based IoT approach -- 6.5.3.1. Direct contact method -- 6.5.3.2. Epidemic routing methods -- 6.5.3.3. Location-based routing mechanism -- 6.6. Analysis of different methodologies -- 6.6.1. Message delivery ratio comparison -- 6.6.2. Buffer usage comparison -- 6.6.3. Comparison of quality of services -- 6.7. Conclusion -- References -- Chapter 7: Overview of data gathering and cloud computing in healthcare -- 7.1. Introduction -- 7.2. Wireless sensor network -- 7.3. Transmission methods -- 7.3.1. Unicast -- 7.3.2. Multicast -- 7.3.3. Broadcast -- 7.3.4. Convergecast -- 7.4. Cloud computing -- 7.5. Medical cloud application -- 7.5.1. Information management and sharing -- 7.5.2. Medical support system -- 7.5.3. Clinical analytics -- 7.6. Issues in healthcare cloud -- 7.7. Conclusion -- References -- Index.
Subject	Biosensors.
	Intelligent sensors.
	Biosensing Techniques
	Biocapteurs.
	Capteurs intelligents.
	Biosensors
	Intelligent sensors
Added Author	Mukherjee, Amartya.
	Dey, Nilanjan, 1984-
Other Form:	Print version: 0128228563 9780128228562 (OCoLC)1204134580
	Print version: Panja, Ayan Kumar, author. Biomedical sensors and smart sensing 9780128228562 (OCoLC)1314331917
ISBN	9780128230732 (electronic bk.)
	0128230738 (electronic bk.)
	9780128228562
	0128228563
Standard No.	AU@ 000072198316
	AU@ 000074355911