Ecway Technologies provides software development and IEEE projects services from offices located in multiple cities across India. They can be contacted via phone or email on their website at www.ecwayprojects.com.
The paper presents a method for easy stereoscopic photo authoring using a regular monocular camera. It takes two input images or video frames and transforms them into a stereoscopic image pair for pleasant 3D viewing. This is done through a perceptual-plausible image rectification algorithm that warps the input pairs to meet stereoscopic geometric constraints while avoiding visual distortion. The warping uses spatially-varying mesh-based warps that encode various constraints to best meet the stereoscopic geometry and minimize distortion. Experiments show the
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.finalyearprojects.org
Overview of the emerging field of smartphone-powered ophthalmic diagnostics that has the potential to bring down the cost and improve access to healthcare especially in developing countries.
Alternative download link: https://www.dropbox.com/s/c3ef13nlw2mywa7/iphoneFundusCamera.pdf?dl=0
Purkinje imaging for crystalline lens density measurementPetteriTeikariPhD
Brief introduction for the non-invasive, inexpensive and fast Purkinje image -based method for measuring the spectral transmittance of the human crystalline lens density in vivo.
Alternative download link:
https://www.dropbox.com/s/588y7epy13n34xo/purkinje_imaging.pdf?dl=0
Practical Considerations in the design of Embedded Ophthalmic DevicesPetteriTeikariPhD
Practical level introduction for ophthalmic device design.
How in the future, multimodal measurement devices will be replacing unimodal devices with simple decision tree indices.
Some examples of embedded cameras, measurement illumination, stimulus presentation illumination are shown.
Alternative download link:
https://www.dropbox.com/s/lt76ohoeusopkoo/practicalConsiderations_embeddedOphthalmicDevices.pdf?dl=0
Novel deep learning-powered diagnostics hardware for assessing retinal health.
The impact of deep learning and artificial intelligence for the design practice itself is covered better in https://algorithms.design/ and the focus of this presentation is in the visual function diagnostics.
How is the future looking for your high-street optician's (e.g. Specsavers, Boots) vision exam going beyond simple refraction correction, and how possibly in the future AR glasses could allow design of "smarter" every-day eyewear also for health monitoring.
Talk given for “Future of Eyecare: How we see and how we want to be seen” organized by Flora McLean.
Royal College of Art - London UK
Time-resolved biomedical sensing through scattering mediumPetteriTeikariPhD
Time-resolved biomedical sensing through scattering medium | Case study with pupillometry through closed eyelids for neurological monitoring
Download link: https://www.dropbox.com/s/x0f5q6cz5ax33s4/timeResolvedSensing.pdf?dl=0
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.finalyearprojects.org
Matlab rich intrinsic image decomposition of outdoor scenes from multiple viewsEcway Technologies
Final Year IEEE Projects, Final Year Projects, Academic Final Year Projects, Academic Final Year IEEE Projects, Academic Final Year IEEE Projects 2013, Academic Final Year IEEE Projects 2014, IEEE MATLAB Projects, 2013 IEEE MATLAB Projects, 2013 IEEE MATLAB Projects in Chennai, 2013 IEEE MATLAB Projects in Trichy, 2013 IEEE MATLAB Projects in Karur, 2013 IEEE MATLAB Projects in Erode, 2013 IEEE MATLAB Projects in Madurai, 2013 IEEE MATLAB Projects in Salem, 2013 IEEE MATLAB Projects in Coimbatore, 2013 IEEE MATLAB Projects in Tirupur, 2013 IEEE MATLAB Projects in Bangalore, 2013 IEEE MATLAB Projects in Hydrabad, 2013 IEEE MATLAB Projects in Kerala, 2013 IEEE MATLAB Projects in Namakkal, IEEE MATLAB Image Processing, IEEE MATLAB Face Recognition, IEEE MATLAB Face Detection, IEEE MATLAB Brain Tumour, IEEE MATLAB Iris Recognition, IEEE MATLAB Image Segmentation, Final Year Matlab Projects in Pondichery, Final Year Matlab Projects in Tamilnadu, Final Year Matlab Projects in Chennai, Final Year Matlab Projects in Trichy, Final Year Matlab Projects in Erode, Final Year Matlab Projects in Karur, Final Year Matlab Projects in Coimbatore, Final Year Matlab Projects in Tirunelveli, Final Year Matlab Projects in Madurai, Final Year Matlab Projects in Salem, Final Year Matlab Projects in Tirupur, Final Year Matlab Projects in Namakkal, Final Year Matlab Projects in Tanjore, Final Year Matlab Projects in Coimbatore, Final Year Matlab Projects in Bangalore, Final Year Matlab Projects in Hydrabad, Final Year Matlab Projects in Kerala.
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.finalyearprojects.org
Overview of the emerging field of smartphone-powered ophthalmic diagnostics that has the potential to bring down the cost and improve access to healthcare especially in developing countries.
Alternative download link: https://www.dropbox.com/s/c3ef13nlw2mywa7/iphoneFundusCamera.pdf?dl=0
Purkinje imaging for crystalline lens density measurementPetteriTeikariPhD
Brief introduction for the non-invasive, inexpensive and fast Purkinje image -based method for measuring the spectral transmittance of the human crystalline lens density in vivo.
Alternative download link:
https://www.dropbox.com/s/588y7epy13n34xo/purkinje_imaging.pdf?dl=0
Practical Considerations in the design of Embedded Ophthalmic DevicesPetteriTeikariPhD
Practical level introduction for ophthalmic device design.
How in the future, multimodal measurement devices will be replacing unimodal devices with simple decision tree indices.
Some examples of embedded cameras, measurement illumination, stimulus presentation illumination are shown.
Alternative download link:
https://www.dropbox.com/s/lt76ohoeusopkoo/practicalConsiderations_embeddedOphthalmicDevices.pdf?dl=0
Novel deep learning-powered diagnostics hardware for assessing retinal health.
The impact of deep learning and artificial intelligence for the design practice itself is covered better in https://algorithms.design/ and the focus of this presentation is in the visual function diagnostics.
How is the future looking for your high-street optician's (e.g. Specsavers, Boots) vision exam going beyond simple refraction correction, and how possibly in the future AR glasses could allow design of "smarter" every-day eyewear also for health monitoring.
Talk given for “Future of Eyecare: How we see and how we want to be seen” organized by Flora McLean.
Royal College of Art - London UK
Time-resolved biomedical sensing through scattering mediumPetteriTeikariPhD
Time-resolved biomedical sensing through scattering medium | Case study with pupillometry through closed eyelids for neurological monitoring
Download link: https://www.dropbox.com/s/x0f5q6cz5ax33s4/timeResolvedSensing.pdf?dl=0
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.finalyearprojects.org
Matlab rich intrinsic image decomposition of outdoor scenes from multiple viewsEcway Technologies
Final Year IEEE Projects, Final Year Projects, Academic Final Year Projects, Academic Final Year IEEE Projects, Academic Final Year IEEE Projects 2013, Academic Final Year IEEE Projects 2014, IEEE MATLAB Projects, 2013 IEEE MATLAB Projects, 2013 IEEE MATLAB Projects in Chennai, 2013 IEEE MATLAB Projects in Trichy, 2013 IEEE MATLAB Projects in Karur, 2013 IEEE MATLAB Projects in Erode, 2013 IEEE MATLAB Projects in Madurai, 2013 IEEE MATLAB Projects in Salem, 2013 IEEE MATLAB Projects in Coimbatore, 2013 IEEE MATLAB Projects in Tirupur, 2013 IEEE MATLAB Projects in Bangalore, 2013 IEEE MATLAB Projects in Hydrabad, 2013 IEEE MATLAB Projects in Kerala, 2013 IEEE MATLAB Projects in Namakkal, IEEE MATLAB Image Processing, IEEE MATLAB Face Recognition, IEEE MATLAB Face Detection, IEEE MATLAB Brain Tumour, IEEE MATLAB Iris Recognition, IEEE MATLAB Image Segmentation, Final Year Matlab Projects in Pondichery, Final Year Matlab Projects in Tamilnadu, Final Year Matlab Projects in Chennai, Final Year Matlab Projects in Trichy, Final Year Matlab Projects in Erode, Final Year Matlab Projects in Karur, Final Year Matlab Projects in Coimbatore, Final Year Matlab Projects in Tirunelveli, Final Year Matlab Projects in Madurai, Final Year Matlab Projects in Salem, Final Year Matlab Projects in Tirupur, Final Year Matlab Projects in Namakkal, Final Year Matlab Projects in Tanjore, Final Year Matlab Projects in Coimbatore, Final Year Matlab Projects in Bangalore, Final Year Matlab Projects in Hydrabad, Final Year Matlab Projects in Kerala.
Using off-the-shelf ultrasound imagers, and transition to portable system-on-chip ultrasound imagers such as Butterfly IQ.
Embedded devices such as Butterfly IQ can be further improved by integrating deep learning / artificial intelligence at device level, and naturally at the post-processing and analysis levels
Alternative download link:
https://www.dropbox.com/s/rlwv7m29mh6y2w6/pupillometry_throughTheEyelids.pdf?dl=0
High-level overview of the specifications for a portable multispectral/hyperspectral fundus imaging based on the custom-developed MEMS filter developed by VTT, Finland.
Additionally one could do a multispectral purkinje imaging for quick estimation of spectral ocular media transmittance.
The device could be used for structural imaging ("classical fundus") as well as functional vessel response imaging with oximetry.
Alternative download link:
https://www.dropbox.com/s/g0ladhqw075w59j/multispectral_fundus_camera_rev2.pdf?dl=0
From unimodal image classification to integrative multimodal deep learning pipelines in disease classification, disease management and predictive personalised healthcare.
Possible future avenues for ophthalmic imaging combining advanced techniques and deep learning. "Bubbling under the surface, and inspiration from ‘bioimaging’ in general"
منهج الحافظ ابن حجر العسقلاني في العقيدة من خلال كتابه - فتح الباريOm Muktar
عنوان الكتاب: منهج ابن حجر العسقلاني في العقيدة من خلال كتاب فتح الباري
المؤلف: محمد إسحاق كندو
نبذة عن الكتاب: مكتبة الرشد - الرياض - 3 مجلداتن - 1590 صفحة - 16 ميجا
A comparison of chemical treatment methods for the preparation of rice husk c...Agriculture Journal IJOEAR
Abstract— NaOH, H2O2 and NaOH/H2O2 treatment methods were investigated to eliminate the lignin and hemicellulose distributed in the lignocellulosic matrix of rice husk. In order to prevent the decomposition of H2O2 at higher temperatures, a low temperature treatment for 4 hours has been performed. A composition analysis indicated that NaOH/H2O2 may achieve the highest concentration of α-cellulose, but had the lowest overall solid recovery rate. Both FTIR and TGA results confirmed that only the H2O2 treated rice husk contained hemicellulose residue, which could be found at the absorption peak 1740 cm-1. The TGA analysis demonstrated the NaOH/H2O2 modified rice husks presented the most uniform structure. The SEM gave a clear picture of the raw rice husks and modified rice husks.
Using off-the-shelf ultrasound imagers, and transition to portable system-on-chip ultrasound imagers such as Butterfly IQ.
Embedded devices such as Butterfly IQ can be further improved by integrating deep learning / artificial intelligence at device level, and naturally at the post-processing and analysis levels
Alternative download link:
https://www.dropbox.com/s/rlwv7m29mh6y2w6/pupillometry_throughTheEyelids.pdf?dl=0
High-level overview of the specifications for a portable multispectral/hyperspectral fundus imaging based on the custom-developed MEMS filter developed by VTT, Finland.
Additionally one could do a multispectral purkinje imaging for quick estimation of spectral ocular media transmittance.
The device could be used for structural imaging ("classical fundus") as well as functional vessel response imaging with oximetry.
Alternative download link:
https://www.dropbox.com/s/g0ladhqw075w59j/multispectral_fundus_camera_rev2.pdf?dl=0
From unimodal image classification to integrative multimodal deep learning pipelines in disease classification, disease management and predictive personalised healthcare.
Possible future avenues for ophthalmic imaging combining advanced techniques and deep learning. "Bubbling under the surface, and inspiration from ‘bioimaging’ in general"
منهج الحافظ ابن حجر العسقلاني في العقيدة من خلال كتابه - فتح الباريOm Muktar
عنوان الكتاب: منهج ابن حجر العسقلاني في العقيدة من خلال كتاب فتح الباري
المؤلف: محمد إسحاق كندو
نبذة عن الكتاب: مكتبة الرشد - الرياض - 3 مجلداتن - 1590 صفحة - 16 ميجا
A comparison of chemical treatment methods for the preparation of rice husk c...Agriculture Journal IJOEAR
Abstract— NaOH, H2O2 and NaOH/H2O2 treatment methods were investigated to eliminate the lignin and hemicellulose distributed in the lignocellulosic matrix of rice husk. In order to prevent the decomposition of H2O2 at higher temperatures, a low temperature treatment for 4 hours has been performed. A composition analysis indicated that NaOH/H2O2 may achieve the highest concentration of α-cellulose, but had the lowest overall solid recovery rate. Both FTIR and TGA results confirmed that only the H2O2 treated rice husk contained hemicellulose residue, which could be found at the absorption peak 1740 cm-1. The TGA analysis demonstrated the NaOH/H2O2 modified rice husks presented the most uniform structure. The SEM gave a clear picture of the raw rice husks and modified rice husks.
Final Year IEEE Projects, Final Year Projects, Academic Final Year Projects, Academic Final Year IEEE Projects, Academic Final Year IEEE Projects 2013, Academic Final Year IEEE Projects 2014, IEEE MATLAB Projects, 2013 IEEE MATLAB Projects, 2013 IEEE MATLAB Projects in Chennai, 2013 IEEE MATLAB Projects in Trichy, 2013 IEEE MATLAB Projects in Karur, 2013 IEEE MATLAB Projects in Erode, 2013 IEEE MATLAB Projects in Madurai, 2013 IEEE MATLAB Projects in Salem, 2013 IEEE MATLAB Projects in Coimbatore, 2013 IEEE MATLAB Projects in Tirupur, 2013 IEEE MATLAB Projects in Bangalore, 2013 IEEE MATLAB Projects in Hydrabad, 2013 IEEE MATLAB Projects in Kerala, 2013 IEEE MATLAB Projects in Namakkal, IEEE MATLAB Image Processing, IEEE MATLAB Face Recognition, IEEE MATLAB Face Detection, IEEE MATLAB Brain Tumour, IEEE MATLAB Iris Recognition, IEEE MATLAB Image Segmentation, Final Year Matlab Projects in Pondichery, Final Year Matlab Projects in Tamilnadu, Final Year Matlab Projects in Chennai, Final Year Matlab Projects in Trichy, Final Year Matlab Projects in Erode, Final Year Matlab Projects in Karur, Final Year Matlab Projects in Coimbatore, Final Year Matlab Projects in Tirunelveli, Final Year Matlab Projects in Madurai, Final Year Matlab Projects in Salem, Final Year Matlab Projects in Tirupur, Final Year Matlab Projects in Namakkal, Final Year Matlab Projects in Tanjore, Final Year Matlab Projects in Coimbatore, Final Year Matlab Projects in Bangalore, Final Year Matlab Projects in Hydrabad, Final Year Matlab Projects in Kerala.
Final Year IEEE Projects, Final Year Projects, Academic Final Year Projects, Academic Final Year IEEE Projects, Academic Final Year IEEE Projects 2013, Academic Final Year IEEE Projects 2014, IEEE MATLAB Projects, 2013 IEEE MATLAB Projects, 2013 IEEE MATLAB Projects in Chennai, 2013 IEEE MATLAB Projects in Trichy, 2013 IEEE MATLAB Projects in Karur, 2013 IEEE MATLAB Projects in Erode, 2013 IEEE MATLAB Projects in Madurai, 2013 IEEE MATLAB Projects in Salem, 2013 IEEE MATLAB Projects in Coimbatore, 2013 IEEE MATLAB Projects in Tirupur, 2013 IEEE MATLAB Projects in Bangalore, 2013 IEEE MATLAB Projects in Hydrabad, 2013 IEEE MATLAB Projects in Kerala, 2013 IEEE MATLAB Projects in Namakkal, IEEE MATLAB Image Processing, IEEE MATLAB Face Recognition, IEEE MATLAB Face Detection, IEEE MATLAB Brain Tumour, IEEE MATLAB Iris Recognition, IEEE MATLAB Image Segmentation, Final Year Matlab Projects in Pondichery, Final Year Matlab Projects in Tamilnadu, Final Year Matlab Projects in Chennai, Final Year Matlab Projects in Trichy, Final Year Matlab Projects in Erode, Final Year Matlab Projects in Karur, Final Year Matlab Projects in Coimbatore, Final Year Matlab Projects in Tirunelveli, Final Year Matlab Projects in Madurai, Final Year Matlab Projects in Salem, Final Year Matlab Projects in Tirupur, Final Year Matlab Projects in Namakkal, Final Year Matlab Projects in Tanjore, Final Year Matlab Projects in Coimbatore, Final Year Matlab Projects in Bangalore, Final Year Matlab Projects in Hydrabad, Final Year Matlab Projects in Kerala.
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IEEE 2014 MATLAB IMAGE PROCESSING PROJECTS Robust face recognition from multi...IEEEBEBTECHSTUDENTPROJECTS
To Get any Project for CSE, IT ECE, EEE Contact Me @ 09666155510, 09849539085 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.finalyearprojects.org
Ieee projects 2012 2013 - Digital Image ProcessingK Sundaresh Ka
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Coronary heart disease is a disease with the highest mortality rates in the world. This makes the development of the diagnostic system as a very interesting topic in the field of biomedical informatics, aiming to detect whether a heart is normal or not. In the literature there are diagnostic system models by combining dimension reduction and data mining techniques. Unfortunately, there are no review papers that discuss and analyze the themes to date. This study reviews articles within the period 2009-2016, with a focus on dimension reduction methods and data mining techniques, validated using a dataset of UCI repository. Methods of dimension reduction use feature selection and feature extraction techniques, while data mining techniques include classification, prediction, clustering, and association rules.
Key frame extraction is an essential technique in the computer vision field. The extracted key frames should brief the salient events with an excellent feasibility, great efficiency, and with a high-level of robustness. Thus, it is not an easy problem to solve because it is attributed to many visual features. This paper intends to solve this problem by investigating the relationship between these features detection and the accuracy of key frames extraction techniques using TRIZ. An improved algorithm for key frame extraction was then proposed based on an accumulative optical flow with a self-adaptive threshold (AOF_ST) as recommended in TRIZ inventive principles. Several video shots including original and forgery videos with complex conditions are used to verify the experimental results. The comparison of our results with the-state-of-the-art algorithms results showed that the proposed extraction algorithm can accurately brief the videos and generated a meaningful compact count number of key frames. On top of that, our proposed algorithm achieves 124.4 and 31.4 for best and worst case in KTH dataset extracted key frames in terms of compression rate, while the-state-of-the-art algorithms achieved 8.90 in the best case.
Automatic temperature based exhaust fan controller
Casual stereoscopic photo authoring
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CASUAL STEREOSCOPIC PHOTO AUTHORING
ABSTRACT:
In this paper, we present a method for easy stereoscopic photo authoring with a regular
(monocular) camera. Our method takes two images or video frames using a monocular camera as
input and transforms them into a stereoscopic image pair that provides a pleasant viewing
experience. The key technique of our method is a perceptual-plausible image rectification
algorithm that warps the input image pairs to meet the stereoscopic geometric constraint while
avoiding noticeable visual distortion.
Our method uses spatially-varying mesh-based image warps. Our warping method encodes a
variety of constraints to best meet the stereoscopic geometric constraint and minimize visual
distortion. Since each energy term is quadratic, our method eventually formulates the warping
problem as a quadratic energy minimization which is solved efficiently using a sparse linear
solver.
Our method also allows both local and global adjustments of the disparities, an important
property for adapting resulting stereoscopic images to different viewing conditions. Our
experiments demonstrate that our spatially-varying warping technique can better support casual
stereoscopic photo authoring than existing methods and our results and user study show that our
method can effectively use casually-taken photos to create high-quality stereoscopic photos that
deliver a pleasant 3D viewing experience.