35 research outputs found
Global and Local Color Time Scales to Encode Timeline Events in Ion Trajectories for Glassies
Glassy compounds lead directly to high ionic conductivity. Ionic conductivity generates ion trajectories. However, these trajectories have been represented by two-dimensional graph in order to visualize the timeline events in ion trajectories. This study addresses this problem by encoding the timeline events in ion trajectories with global and local color scales. Two time scales have been introduced namely Global Color Time Scale and Local Color Time Scale. The rainbow color has been chosen to represent global time scale meanwhile solid color has been used to generate local time scale. Based on evaluation, these techniques are successful in representing timeline events in ion trajectories for understanding the complicated heterogeneous movement of ion trajectories
Study on Finite Element Analysis of Fine Solid Lines by Flexographic Printing in Printed Antennas for RFID Transponder
Printing is offering the feasibility of producing mass quantities of a wide variety of electronic components and devices quickly and at lower cost. Flexography is mainly used for packaging applications, but is also poses a potential method for the micro manufacture of electronic devices, smart packaging and RFID. The flexographic printing process poses as an attractive candidate for printing electronics for its high speed printing capabilities where such volume and large active areas need to be printed. Therefore an investigation for its potential usage in printing electronics are highly in demand hence a research for suitable conductive ink related to this process is vital. Multiple fine solid lines of high quality are essential to enable printing of ink tracks for electronic applications. A step by step approach by printing multiple solid lines, measurements of printing plates and printed images and finite element analysis (FEA) need to be carried out in advance to help comprehending this process that is influenced by many interacting parameters. Plate characteristics are among a number of process parameters that will influence print line quality, which will affect the electrical performance of printed tracks. Printing trials have also been carried out in comparison various ink to check the compatibility and the suitability of the ink developed for printing RFID antennas
A Study on Printed Multiple Solid Line by Combining Microcontact and Flexographic Printing Process for Microelectronic and Biomedical Applications
: Microcontact printing (µCP) is an outstanding surface patterning technique in micron scale and, even in nano scale. Surface science communities like engineers and biologists have been promoting attention in µCP, therefore they have been rich in improvement to the µCP process itself. However the process is relatively slow in production. Meanwhile flexographic technique is a high speed roll to roll process, but low in resolution and still has limitation in printing of micro-scale size. Now a day, low cost fabrication is keys to the successful introduction of printed electronics and roll to roll manufacturing processes. Therefore, study to extend flexographic into the micro-scale size resolutions, may provide an economical commercialization path for electronic devices since, flexographic is a high speed technique commonly used for printing onto very large area flexible substrates. Although low resolution and poor registration are characteristics of today's flexographic process, it has many potential to achieve fine solid line micro size by combining to microcontact printing because both of them having similarities in method of carrying printed pattern to a substrates. This study have been demonstrated that 10micron line with 10micron gap successfully printed by these 2 combinations printing techniques, using graphic ink and biological ink with is Fetal Bovine Serum
Development of wireless-based low-cost current controlled stimulator for patients with spinal cord injuries
A spinal cord injury (SCI) has a severe impact on
human life in general as well as on the physical status and
condition. The use of electrical signals to restore the function of
paralyzed muscles is called functional electrical stimulation
(FES). FES is a promising way to restore mobility to SCI by
applying low-level electrical current to the paralyzed muscles so
as to enhance that person’s ability to function and live
independently. However, due to the limited number of
commercially available FES assisted exerciser systems and their
rather high cost, the conventional devices are unaffordable for
most peoples. It also inconvenient because of wired based system
that creates a limitation in performing exercise. Thus, this
project is concerned with the development of low-cost current
controlled stimulator mainly for the paraplegic subjects. The
developed device should be based on a microcontroller, wireless
based system using Zigbee module, voltage-to-current converter
circuit and should produce proper monophasic and biphasic
current pulses, pulse trains, arbitrary current waveforms, and a
trigger output for FES applications. The performances of the
device will be assessed through simulation study and validated
through experimental work. This device will be developed as in
the new technique of the stimulator development with low cost
and one of the contributing factors in Rehabilitation Engineering
for patients with SCI
Development of wireless-based low-cost current controlled stimulator for patients with spinal cord injuries
A spinal cord injury (SCI) has a severe impact on
human life in general as well as on the physical status and
condition. The use of electrical signals to restore the function of
paralyzed muscles is called functional electrical stimulation
(FES). FES is a promising way to restore mobility to SCI by
applying low-level electrical current to the paralyzed muscles so
as to enhance that person’s ability to function and live
independently. However, due to the limited number of
commercially available FES assisted exerciser systems and their
rather high cost, the conventional devices are unaffordable for
most peoples. It also inconvenient because of wired based system
that creates a limitation in performing exercise. Thus, this
project is concerned with the development of low-cost current
controlled stimulator mainly for the paraplegic subjects. The
developed device should be based on a microcontroller, wireless
based system using Zigbee module, voltage-to-current converter
circuit and should produce proper monophasic and biphasic
current pulses, pulse trains, arbitrary current waveforms, and a
trigger output for FES applications. The performances of the
device will be assessed through simulation study and validated
through experimental work. This device will be developed as in
the new technique of the stimulator development with low cost
and one of the contributing factors in Rehabilitation Engineering
for patients with SCI
A Study on Human Fall Detection Systems: Daily Activity Classification and Sensing Techniques
Fall detection for elderly is a major topic as far as assistive technologies are concerned. This is due to the high demand for the products and technologies related to fall detection with the ageing population around the globe. This paper gives a review of previous works on human fall detection devices and a preliminary results from a developing depth sensor based device. The three main approaches used in fall detection devices such as wearable based devices, ambient based devices and vision based devices are identified along with the sensors employed. Ă‚Â The frameworks and algorithms applied in each of the approaches and their uniqueness is also illustrated. After studying the performance and the shortcoming of the available systems a future solution using depth sensor is also proposed with preliminary results
Image segmentation techniques for redblood cell : on overview
Image processing technique applies in different domains, such as medical, remote sensing and security. This techniques Aims to get a simple image called -image processed- should retain maximum useful information. The sensitive step in image processing is segmentation of image. Segmentation is first stage in medical image analysis seeded to two categories supervised and unsupervised technique. Accuracy of this stage affects the whole system performance. This paper present some methods applied for blood cell image segmentation and compares previous studies of overlapping cell division method. The common goal about this area is accuracy of counting the number of red blood cells (RBC) or white blood cells (WBC), which decrease with effect of some diseases such as anemia and leukemia. And makes it a critical factor in patient treatments
Development of Low-Cost Current Controlled Stimulator for Paraplegics
A spinal cord injury (SCI) has a severe impact on human life in general as well as on the physical status and condition. The use of electrical signals to restore the function of paralyzed muscles is called functional electrical stimulation (FES). FES is a promising way to restore mobility to SCI by applying low-level electrical current to the paralyzed muscles so as to enhance that person’s ability to function and live independently. However, due to the limited number of commercially available FES assisted exerciser systems and their rather high cost, the conventional devices are unaffordable for most peoples. It is also inconvenient because of wired based system that creates a limitation in performing exercise. Thus, this project is concerned with the development of low-cost current controlled stimulator mainly for the paraplegic subjects. The developed device is based on a microcontroller, wireless based system using Zigbee module, voltage-to-current converter circuit and should produce proper monopolar and bipolar current pulses, pulse trains, arbitrary current waveforms, and a trigger output for FES applications. This device has been developed as in the new technique of the stimulator development with low cost and one of the contributing factors in Rehabilitation Engineering for patients with SCI
Design and Development of a portable Pulse Oximetry system
Heart is the most important part in human body. Thus, it is important to follow-up and monitor its condition. Heart rate (HR) and blood oxygen saturation (SpO2) are important indicators directly related to heart-pulmonary system. Monitoring of HR and SpO2 offers us a good indication of heart functionality. Therefore, it is crucial to design and develop a homemade inexpensive device for measuring HR and SpO2. Pulse Oximeter (PO) is an opto-electronic non-invasive medical instrument capable of measuring and recording the changes of HR and SpO2 at the finger tip. In this paper we will demonstrate the overall process involved in the development of a portable (PO) system which can be used for health condition monitoring or for educational and research purposes
A study on optical sensors orientation for tomography system development
This paper describes the investigation of optical sensors performance towards the
development of optical tomography system. The orientation of the transmitters has been set from 0o
until 180o
and then the receiver’s responses were analyzed. Hence, sensors capabilities were tested
further by placing blockage object in between the transmitter and receiver and the effect of this
arrangement were observed. Finally, new designs of sensor jig were introduced based on the results
achieved. Copyright © 2012 IFS