Your search keyword '"Tridib Ghosh"' showing total 9 results

1. Correcting Presbyopia With Autofocusing Liquid-Lens Eyeglasses

Author

Nazmul Hasan, Tridib Ghosh, Chayanjit Ghosh, Carlos H. Mastrangelo, Hanseup Kim, Aishwaryadev Banerjee, Mohit Karkhanis, and Rugved Likhite

Subjects

Optics and Photonics, genetic structures, Computer science, Liquid lens, 0206 medical engineering, Visual Acuity, Biomedical Engineering, FOS: Physical sciences, Field of view, Applied Physics (physics.app-ph), 02 engineering and technology, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Adaptive optics, business.industry, Accommodation, Ocular, Physics - Applied Physics, Presbyopia, medicine.disease, Physics - Medical Physics, 020601 biomedical engineering, eye diseases, Control electronics, Eyeglasses, medicine.anatomical_structure, Power consumption, Optometry, Human eye, Medical Physics (physics.med-ph), business, Accommodation

Abstract

Presbyopia, an age-related ocular disorder, is characterized by the loss in the accommodative abilities of the human ocular system and afflicts more than 1.8 billion people world-wide. Conventional methods of correcting presbyopia fragment the field of vision, inherently resulting in significant vision impairment. We demonstrate the development, assembly and evaluation of autofocusing eyeglasses for restoration of accommodation without vision field loss. The adaptive optics eyeglasses consist of two variable-focus piezoelectric liquid lenses, a time-of-flight range sensor and low-power, dual microprocessor control electronics housed within an ergonomic frame. Patient-specific accommodation deficiency models were utilized to demonstrate a high-fidelity accommodative correction. Each accommodation correction calculation was performed in ~67 ms requiring 4.86 mJ of energy. The optical resolution of the system was 10.5 cycles/degree, featuring a restorative accommodative range of 4.3 D. This system can run for up to 19 hours between charge cycles and weighs ~132 g, allowing comfortable restoration of accommodative function, 12 pages, 13 figures

Published

2022

2. A Low-Profile Digital Eye-Tracking Oculometer for Smart Eyeglasses

Author

Mohit Karkhanis, Ashrafuzzaman Bulbul, Rugved Likhite, Tridib Ghosh, Hanseup Kim, Nazmul Hasan, Alexander S. Mastrangelo, and Carlos H. Mastrangelo

Subjects

BitTorrent tracker, Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Wearable computer, Presbyopia, Virtual reality, medicine.disease, Pupil, Article, Proximity sensor, medicine, Eye tracking, Computer vision, Artificial intelligence, business, Mobile device

Abstract

Wearable eye tracking devices have broad uses in medicine, psychology, augmented & virtual reality and consumer market research. Most mobile eye trackers available today utilize infrared imaging of the pupil and corneal reflections with video cameras. This tracking method requires sophisticated real-time processing of video signals consuming substantial electrical power. This method is thus unsuitable for light weight wearables such as adaptive smart eyeglasses for correction of presbyopia. In this paper we present a low-profile, low-power (7.7 mJ/sample) digital eye tracker oculometer based on infrared sclera tracking. The system is implemented using eight, 24-bit infrared proximity sensors and synchronous infrared LEDs. The pupil location is determined from 32 reflected pulsed light measurements independent of ambient illumination. The digital oculometer is 3.1 mm thick and weighs ~3 g. The tracker mounts adjacent to the tunable lenses in the smart eyeglasses frame. The eye tracker showed a pointing error of 1.3 degrees rms over a vertical and horizontal range of 30 degrees when tested by an observer.

Published

2021

3. Creep deformation in elastomeric membranes of liquid-filled tunable-focus lenses

Author

Rugved Likhite, Chayanjit Ghosh, Apratim Majumder, Carlos H. Mastrangelo, Aishwaryadev Banerjee, Mohit Karkhanis, and Tridib Ghosh

Subjects

chemistry.chemical_classification, Autofocus, Materials science, business.industry, Eyewear, Polymer, Deformation (meteorology), Elastomer, 01 natural sciences, Atomic and Molecular Physics, and Optics, Article, law.invention, 010309 optics, Lens (optics), Optics, chemistry, Creep, law, 0103 physical sciences, Electrical and Electronic Engineering, Composite material, business, Engineering (miscellaneous), Refractive index

Abstract

Liquid-filled tunable-focus lenses have been demonstrated to be suitable for autofocus eyewear applications. Traditionally, these lenses are constructed using an elastomeric polymer chamber filled with a high-index liquid. In this work, we investigate the effect of elastomeric creep on the deformation and eventual degradation of these tunable lenses. We use numerical analysis of a deformable circular disk representative of the lens and provide rigorous experimental results testing the creep property of a number of elastomers. Finally, we provide a comparative study of different elastomeric materials and select the best one for this application.

Published

2019

4. Lightweight smart autofocusing eyeglasses

Author

Fariha Khan, Carlos H. Mastrangelo, Nazmul Hasan, Mohit Karkhanis, Tridib Ghosh, Chayanjit Ghosh, and Hanseup Kim

Subjects

Computer science, business.industry, Visual impairment, 02 engineering and technology, Presbyopia, 021001 nanoscience & nanotechnology, medicine.disease, 01 natural sciences, Article, law.invention, 010309 optics, Lens (optics), Correction algorithm, law, 0103 physical sciences, medicine, Computer vision, Artificial intelligence, Normal vision, medicine.symptom, 0210 nano-technology, business, Accommodation

Abstract

More than 100 million people in the United States of America alone suffer from age-related presbyopia caused by a loss of focal accommodation of the eye crystalline lens as the lens stiffens with age. The resulting accommodative error or lag produces blurred images of objects placed at different distances. Conventional fixed uniform or graded power eyeglasses cannot provide accommodation thus resulting in significant visual impairment. In this paper we will discuss the implementation of lightweight auto-focusing eyeglasses that augment the accommodative range thus partially or fully restoring normal vision function. The paper discusses some aspects of the construction of tunable power eyepieces and the implementation of accommodation correction algorithms.

Published

2018

5. Adaptive Optics for Autofocusing Eyeglasses

Author

Carlos H. Mastrangelo, Tridib Ghosh, Fariha Khan, Nazmul Hasan, Hanseup Kim, and Mohit Karkhanis

Subjects

business.industry, Computer science, Presbyopia, medicine.disease, law.invention, Lens (optics), law, Visual accommodation, medicine, Optometry, Normal vision, business, Adaptive optics, Focus (optics), Accommodation

Abstract

Over 1 billion people worldwide including more than 100 million people in the United States of America alone suffer from an age-related eye condition known as presbyopia. Presbyopia is caused by a loss of focal accommodation of the crystalline lens inside the eye as the lens stiffens with age. A presbyopic person has reduced or very limited ability to focus on objects placed at different distances. The utilization of conventional fixed, uniform or graded power eyeglasses for presbyopia correction is generally unsatisfactory as fixed power eyepieces cannot provide any accommodation restoration. In this paper we will discuss an implementation of lightweight adaptive-optics auto-focusing eyeglasses that augment the accommodation range of vision thus partially or fully cancelling the accommodation loss caused by presbyopia and restoring normal vision function.

Published

2017

6. Label-free detection of protein binding with multisine SPR microchips

Author

Tridib Ghosh, Carlos H. Mastrangelo, and Layne D. Williams

Subjects

Analyte, Sulfonamides, Chemistry, business.industry, Biomedical Engineering, Analytical chemistry, Bioengineering, General Chemistry, Sense (electronics), Microfluidic Analytical Techniques, Signal-To-Noise Ratio, Surface Plasmon Resonance, Ligand (biochemistry), Biochemistry, Noise (electronics), Carbonic Anhydrase II, Step response, Kinetics, Signal-to-noise ratio, Optoelectronics, Dimethylpolysiloxanes, Surface plasmon resonance, business, Excitation, Protein Binding

Abstract

Label-free techniques such as surface plasmon resonance (SPR) have used a step-response excitation method to characterize the binding of two biochemical entities. A major drawback of the step response technique is its high susceptibility to thermal drifts and noise which directly determine the minimum detectable binding mass. In this paper we present a new frequency-domain method based on the use of multisine chemical excitation that is much less sensitive to these disturbances. The multisine method was implemented in a PDMS microfluidic chip using a dual channel, dual multiplug chemical signal generator connected to functionalized and reference SPR binding spots. Kinetic constants for the reaction are extracted from the characteristics of the sense spot response versus frequency. The feasibility of the technique was tested using a model system of Carbonic Anhydrase-II analyte and amino-benzenesulfonamide ligand. The experimental signal to noise ratio (SNR) for the multisine measurement is about 32 dB; 7 dB higher than that observed with the single step-response method, while the overall measurement time is twice as long as the step method.

Published

2011

7. Probing protein binding spectra with Fourier microfluidics

Author

Carlos H. Mastrangelo, Layne D. Williams, and Tridib Ghosh

Subjects

Materials science, Microfluidics, Carbonic Anhydrase II, Models, Biological, Dissociation (chemistry), law.invention, symbols.namesake, Nuclear magnetic resonance, law, Dimethylpolysiloxanes, Surface plasmon resonance, Sulfonamides, Fourier Analysis, business.industry, Lab-on-a-chip, Surface Plasmon Resonance, Microarray Analysis, Fourier transform, Fourier analysis, symbols, Optoelectronics, business, Biosensor, Excitation, Protein Binding

Abstract

New developments in microfluidic chip technology enable the construction of chemical spectrum analyzers that can probe the binding interactions between chemical entities. In this paper we report the implementation of a microfluidic chip suitable for Fourier transform measurements of biochemical interactions. The chip consists of a chemical signal generator, a flow cell and a binding sensor surface. The microfluidic signal generator produces a periodic stream of protein plugs in solution flowing at constant velocity through the cell. This flow produces periodic association and dissociation cycles of the protein to a functionalized gold sensing surface placed inside the cell. The sensor activity corresponding to the phasor response of the chemical interaction at the excitation frequency is measured optically using surface plasmon resonance (SPR) imaging. We demonstrated the feasibility of the technique using a model system of carbonic anhydrase-II (CA-II) and immobilized 4-(2-Aminoethyl) benzenesulfonamide (ABS) ligand. The observed transfer function showed a dominant pole at 10.2 mHz corresponding to association and dissociation constants of 4.8 × 10(3) M(-1)·s(-1), and 3.5 × 10(-2) s(-1) respectively.

Published

2010

8. Low noise detection of biomolecular interactions with signal-locking surface plasmon resonance

Author

Tridib Ghosh, Carlos H. Mastrangelo, and Layne D. Williams

Subjects

Analyte, Sulfonamides, business.industry, Chemistry, Analytical chemistry, Microfluidic Analytical Techniques, Surface Plasmon Resonance, Kinetic energy, Chip, Carbonic Anhydrase II, Analytical Chemistry, Dissociation constant, Step response, Kinetics, Bruit, medicine, Optoelectronics, Sample preparation, Gold, medicine.symptom, Surface plasmon resonance, business, Protein Binding

Abstract

Surface plasmon resonance (SPR) is a popular technique for label-free detection of biomolecular interactions at a surface. SPR yields quantitative kinetic association and dissociation constants of surface interactions such as the binding of two molecular species, one present in the liquid phase and the other immobilized at the surface. Current state-of-the-art SPR systems extract kinetic constants from measurements of the step response of the interaction versus time. The step response measurement is subject to the influence of noise and drift disturbances that limit its minimum-detectable mass changes. This paper presents a new SPR technique that measures the biomolecular interaction not in time but over a very narrow frequency range under periodic excitation. The measured response is, thus, locked to a very specific narrow band signal. This narrow band spectral sensing scheme has a very high degree of rejection to uncorrelated spurious signals. The signal-locked SPR technique was implemented using a chemical modulator chip connected to a set of functionalized Au sensing sites downstream. Binding experiments for a model system of carbonic anhydrase-II (CA-II) analyte and immobilized 4-(2-aminoethyl)benzenesulfonamide (ABS) ligand display a 100-fold (20 dB) improvement in the measured signal-to-noise ratio (SNR) when using the new technique compared to the SNR achieved using the conventional step response method.

Published

2010

9. Signal-Locking Fourier Transform SPR: A new low-noise detection technique for biomolecular interactions

Author

Tridib Ghosh, Carlos H. Mastrangelo, Layne D. Williams, and Renny Edwin Fernandez

Subjects

Materials science, business.industry, Surface plasmon, Microfluidics, Chip, Signal, Low noise, symbols.namesake, Optics, Fourier transform, Frequency domain, symbols, Surface plasmon resonance, business

Abstract

A new frequency domain SPR technique for quantitative measurement of biomolecular interactions is presented with the goal of improved signal-to-noise ratio. The technique uses a microfluidic chemical modulator chip with Au sensing sites.

Published

2010