Published on 16.03.17 in Vol 5, No 3 (2017): March
Works citing "Estimating Accuracy at Exercise Intensities: A Comparative Study of Self-Monitoring Heart Rate and Physical Activity Wearable Devices"
According to Crossref, the following articles are citing this article (DOI 10.2196/mhealth.7043):
(note that this is only a small subset of citations)
- Montoye AH, Vusich J, Mitrzyk J, Wiersma M. Heart Rate Alters, But Does Not Improve, Calorie Predictions in Fitbit Activity Monitors. Journal for the Measurement of Physical Behaviour 2018;1(1):9CrossRef
- McConnell MV, Turakhia MP, Harrington RA, King AC, Ashley EA. Mobile Health Advances in Physical Activity, Fitness, and Atrial Fibrillation. Journal of the American College of Cardiology 2018;71(23):2691CrossRef
- Rapalis A, Petrėnas A, Šimaitytė M, Bailón R, Marozas V. Towards pulse rate parametrization during free-living activities using smart wristband. Physiological Measurement 2018;39(5):055007CrossRef
- Vinciguerra S, Vinciguerra M. Smart devices and healthy aging. Nutrition and Healthy Aging 2018;:1CrossRef
- Knight A, Bidargaddi N. Commonly available activity tracker apps and wearables as a mental health outcome indicator: A prospective observational cohort study among young adults with psychological distress. Journal of Affective Disorders 2018;236:31CrossRef
- Henriksen A, Haugen Mikalsen M, Woldaregay AZ, Muzny M, Hartvigsen G, Hopstock LA, Grimsgaard S. Using Fitness Trackers and Smartwatches to Measure Physical Activity in Research: Analysis of Consumer Wrist-Worn Wearables. Journal of Medical Internet Research 2018;20(3):e110CrossRef
- Garge GK, Balakrishna C, Datta SK. Consumer Health Care: Current Trends in Consumer Health Monitoring. IEEE Consumer Electronics Magazine 2018;7(1):38CrossRef
- Thiebaud RS, Funk MD, Patton JC, Massey BL, Shay TE, Schmidt MG, Giovannitti N. Validity of wrist-worn consumer products to measure heart rate and energy expenditure. DIGITAL HEALTH 2018;4:205520761877032CrossRef
- Stubberud A, Omland PM, Tronvik E, Olsen A, Sand T, Linde M. Wireless Surface Electromyography and Skin Temperature Sensors for Biofeedback Treatment of Headache: Validation Study with Stationary Control Equipment. JMIR Biomedical Engineering 2018;3(1):e1CrossRef
- Rozanski GM, Aqui A, Sivakumaran S, Mansfield A. Consumer Wearable Devices for Activity Monitoring Among Individuals After a Stroke: A Prospective Comparison. JMIR Cardio 2018;2(1):e1CrossRef
- Lee J, Lee DH, Oh TJ, Kim KM, Choi SH, Lim S, Park YJ, Park DJ, Jang HC, Moon JH. Clinical Feasibility of Continuously Monitored Data for Heart Rate, Physical Activity, and Sleeping by Wearable Activity Trackers in Patients with Thyrotoxicosis: Protocol for a Prospective Longitudinal Observational Study. JMIR Research Protocols 2018;7(2):e49CrossRef
- Xie J, Wen D, Liang L, Jia Y, Gao L, Lei J. Evaluating the Validity of Current Mainstream Wearable Devices in Fitness Tracking Under Various Physical Activities: Comparative Study. JMIR mHealth and uHealth 2018;6(4):e94CrossRef
- Zenko Z, O'Brien JD, Berman CJ, Ariely D. Comparison of affect-regulated, self-regulated, and heart-rate regulated exercise prescriptions: Protocol for a randomized controlled trial. Psychology of Sport and Exercise 2017;32:124CrossRef
- Gorny AW, Liew SJ, Tan CS, Müller-Riemenschneider F. Fitbit Charge HR Wireless Heart Rate Monitor: Validation Study Conducted Under Free-Living Conditions. JMIR mHealth and uHealth 2017;5(10):e157CrossRef
According to Crossref, the following books are citing this article (DOI 10.2196/mhealth.7043)
:- Tamura T, Maeda Y. Seamless Healthcare Monitoring. 2018. Chapter 6:159CrossRef