Novel implementation of IoT based non-invasive sensor system for real-time monitoring of intravenous fluid level for assistive e-healthcare

Ray, Partha Pratim; Thapa, Nishant; Dash, Dinesh; De, Debashis

doi:10.1108/cw-01-2019-0008

Cited by 32 publications

(23 citation statements)

References 12 publications

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“…The humidity sensor, together with sensors for detecting the patient's temperature and pulse via a microcontroller and Bluetooth connection, sends real-time data to medical staff mobile devices. The IoT infusion monitoring system which comprises a temperature sensor for infusion flow detection, a microcontroller, and a Wireless-Fidelity (Wi-Fi) module is presented in [22]. Liquid level data is transmitted wirelessly from the microcontroller to the IoT cloud, the mobile application, and to the medical staff mobile phones.…”

Section: Wireless Communication Systemsmentioning

confidence: 99%

“…The advantages of the described systems are wireless communication between sensor and controller [20,23,24], wireless communication between controller and computer at nurse room [21][22][23][25][26][27][28], the use of IoT technologies [21,22,29,30], mobile application for IV therapy monitoring [21,22,[25][26][27]29,30], personal computer (PC) monitoring application [28], continuous detection of IV bottle/bag fluid level [20][21][22][23][24][25][26][27][28][29][30], alarm at the patient or in the nurse room [20][21][22][23]25,26,[28][29][30], flow control valve or pump for infusion fluid [20,25,27], and monitoring system in patient's room [20].…”

Section: Wireless Communication Systemsmentioning

confidence: 99%

“…The disadvantages of the described systems are that there is no backflow solution [21][22][23][24]26,[28][29][30], there is no IV therapy monitoring application [20,23,24], there is no wireless between communication controller and control panel [20,24], there is no usage of IoT technology [20,[23][24][25][26][27][28], and it has not been tested in hospitals [20][21][22][23][24][25][26][27][28][29][30].…”

Section: Wireless Communication Systemsmentioning

confidence: 99%

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Smart Intravenous Infusion Dosing System

et al. 2021

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Intravenous (IV) infusion therapy allows the infusion fluid to be inserted directly into the patient’s vein. It is used to place medications directly into the bloodstream or for blood transfusions. The probability that a hospitalized patient will receive some kind of infusion therapy, intravenously, is 60–80%. The paper presents a smart IV infusion dosing system for detection, signaling, and monitoring of liquid in an IV bottle at a remote location. It consists of (i) the sensing and computation layer—a system for detection and signaling of fluid levels in the IV bottle and a system for regulation and closing of infusion flow, (ii) the communication layer—a wireless exchange of information between the hardware part of the system and the client, and (iii) the user layer—monitoring and visualization of IV therapy reception at a remote location in real time. All layers are modular, allowing upgrades of the entire system. The proposed system alerts medical staff to continuous and timely changes of IV bottles, which can have positive effects on increasing the success of IV therapy, especially in oncology patients. The prescribed drip time of IV chemotherapy for the full effect of cytostatics should be imperative.

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Section: Wireless Communication Systemsmentioning

confidence: 99%

Section: Wireless Communication Systemsmentioning

confidence: 99%

Section: Wireless Communication Systemsmentioning

confidence: 99%

See 1 more Smart Citation

Smart Intravenous Infusion Dosing System

et al. 2021

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“…In doing so, a potential method is a laterally dispersed platform like the Internet of Things (IoT) 10,11 . Thus, among the array of usages empowered by IoT, health care systems are chiefly crucial 12,13 . Therefore, in this article, we have examined the IoT and its relationship to health management systems (HMS).…”

Section: Introductionmentioning

confidence: 99%

Internet of things in health management systems: A review

Huang¹,

Huang³

et al. 2020

Int J Communication

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In today's health care context, the application of the Internet of Things (IoT) offers suitability for doctors and patients as we can use them in many medical fields. So, we have emphasized the particular use of the IoT in medicine and health care, such as clinical devices management, medication management, clinical data management, distant medicine, mobile medical care, and individual health management. We have done an organized review to enhance health management systems via many up-to-date IoT-oriented health care applications. The article approbates with the methodological necessities of systematic literature reviews. We have identified several issues caused by the quick acceptance of IoT-oriented systems' health management. IoT necessitates new safety infrastructure, according to the novel practical principles. Outcomes illustrate that health experts can assist in supplying necessities, information, or standards to improve IoT devices or systems. Also, they are able to present novel fields or applications for which IoT is fit. This survey aids the hospitals and relevant institutions to recognize IoT needs. Also, the article will serve as an initial location for future IoT security management and design. Policymakers and opinion formers need to understand the IoT and its implications.

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“…The main goal is to activate the items of the network for actively cooperating and making their resources accessible to conduct some applications allotted to the network. The realization of the IoT sample depends on cooperative, smart items execution along with significant interoperability potentials 6,7 . The interoperability aspects pertain to cooperate among nodes to a collaborative application extension in current technology, taking the accessible resources into account, like memory, processing, electrical energy, and object potential for conducting a specific task 8,9 .…”

Section: Introductionmentioning

confidence: 99%

An energy‐aware method for task allocation in the Internet of things using a hybrid optimization algorithm

Ren

Zhang

Shao-chun

et al. 2020

Concurrency and Computation

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Internet of Things (IoT) is utilized as an emerging sample for defining the future of technology in which physical items like sensors, radio-frequency identification tags, mobile phones, actuators, and so on, can have interaction together and have cooperation with their neighbors for obtaining joint objectives. The performance of the deployed tasks and applications on the network is considered as one of the critical goals in this model, which is achieved by the task allocation mechanism. Task allocation in the IoT is so complicated due to the intricate connection among machines. The task allocation problem is considered as an NP-hard problem, so a new task allocation algorithm in the IoT environment is proposed using the combination of Simulated Annealing (SA) and Particle Swarm Optimization (PSO) algorithm. Also, the issues of the PSO algorithm, such as getting stuck in local optimization and not achieving an optimal response, forced us to present a method based on the combination of SA and the PSO algorithms. The results of simulation in MATLAB environment illustrated that the suggested method performs better compared to the PSO and SA-based methods.

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Novel implementation of IoT based non-invasive sensor system for real-time monitoring of intravenous fluid level for assistive e-healthcare

Cited by 32 publications

References 12 publications

Smart Intravenous Infusion Dosing System

Smart Intravenous Infusion Dosing System

Internet of things in health management systems: A review

An energy‐aware method for task allocation in the Internet of things using a hybrid optimization algorithm

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