Your search keyword '"Youssef Tawk"' showing total 160 results

1. A Polarization Reconfigurable 3D Printed Dual Integrated Quadrifilar Helix Antenna Array Embedded Within a Cylindrical Dielectric Mesh

Author

Youssef Tawk and Joseph Costantine

Subjects

Electrical and Electronic Engineering

Published

2023

2. A Portable Non-Invasive Electromagnetic Lesion-Optimized Sensing Device for The Diagnosis of Skin Cancer (SkanMD)

Author

Nader Shafi, Joseph Costantine, Rouwaida Kanj, Youssef Tawk, Ali H. Ramadan, Mazen Kurban, Jihane Abou Rahal, and Assaad Eid

Subjects

Biomedical Engineering, Electrical and Electronic Engineering

Published

2023

3. Cross-Slotted Waveguide Array With Dual Circularly Polarized Radiation at W-Band

Author

Steven A. Lane, Joseph Costantine, F. Ayoub, Youssef Tawk, Christos G. Christodoulou, and E. Ardelean

Subjects

Azimuth, Physics, Beam diameter, Optics, Offset (computer science), W band, business.industry, Waveguide (acoustics), Topology (electrical circuits), Electrical and Electronic Engineering, Polarization (waves), business, Slotted waveguide

Abstract

This paper discusses the design of a cross-slotted waveguide array structure to be adopted for W-band communication between 84 86 GHz. Each array waveguide element contains 16 cross-slots along the broad wall to enable circularly polarized radiation behavior with a gain reaching up to 14 dBi and a cross-polarization isolation of more than 20 dB in the elevation plane. The design of the cross-slots is implemented with bent arms in order to accommodate them at an offset position from the waveguide narrow wall. Such position ensures the radiation of a circularly polarized wave. A waveguide-based feeding network with serpentine shaped transitions is implemented to feed the eight-element cross-slotted array topology. The design of the feeding network ensures an equal power split and in-phase distribution between the eight elements with a phase deviation that does not exceed 20°. The overall cross-slotted waveguide array is prototyped as a proof of concept. The measured results show a maximum gain of 24.5 dBi for both polarization schemes. The measured half power beam width (HPBW) is 8° in the elevation plane and 12° in the azimuthal plane. The measured cross-polarization between the two circularly polarized schemes at both ports reaches a level of more than 26 dB. The comparison between the simulation and measurement results proves the validity of the proposed approach in achieving a high-gain dual circularly polarized structure for millimeter-wave communication.

Published

2022

4. Multistable helical antenna with reconfigurable radiation pattern for spacecraft

Author

Maria Sakovsky, Phoenix Reivers, Rosette Maria Bichara, Fatima Asadallah, Youssef Tawk, and Joseph Costantine

Published

2023

5. A Compact Active Ka-Band Filtenna for CubeSats

Author

Joseph Costantine, Youssef Tawk, Marios Patriotis, F. Ayoub, and Christos G. Christodoulou

Subjects

Physics, business.industry, Axial ratio, Optical ring resonators, Stub (electronics), law.invention, Optics, Band-pass filter, law, Filter (video), Ka band, Electrical and Electronic Engineering, Antenna (radio), Center frequency, business

Abstract

This letter describes the design of a right-hand circularly polarized planar filtenna (filter + antenna) that can reconfigure its operation between two center frequencies in the Ka-band. The filtenna structure is composed of a four-element array radiator and a reconfigurable bandpass filter, occupying an area of 31 × 14 mm. The circularly polarized array elements are fed by a sequential power divider for an enhanced polarization purity. The filter is based on a ring resonator loaded with a variable open stub. The length of the stub extends through a p-i-n diode switch, resulting in a change of the loaded reactance into the ring, and consequently tuning the filter's operating center frequency from 30.3 to 29 GHz. The proposed low-loss filtenna structure exhibits a reconfigurable fractional bandwidth up to 7.74%, a peak realized gain that can reach up to 11.5 dBic, an axial ratio of less than 1 dB, and a sidelobe level that can go as low as −12 dB. The prototype filtenna is fabricated and tested, where the measured results verify the simulated data. A figure of merit is proposed to highlight the superior performance of the presented Ka-band structure in terms of the polarization, size, reconfiguration ability, and radiation characteristics as proven by the comparison with other works in the literature.

Published

2021

6. Digital Reconfiguration of a Single Arm 3-D Bowtie Antenna

Author

Youssef Tawk, Ghida Shehadeh, E.M. Tentzeris, Aline Eid, F. A. Asadallah, and Joseph Costantine

Subjects

Patch antenna, Computer science, business.industry, Electrical engineering, Control reconfiguration, Topology (electrical circuits), law.invention, Capacitor, law, Figure of merit, Electrical and Electronic Engineering, Antenna (radio), business, Electrical impedance, Ground plane

Abstract

This communication proposes the reconfiguration of a coplanar-fed single arm bowtie antenna structure by relying on the integration of a digital tunable capacitor (DTC). The coplanar-fed single arm bowtie antenna is presented in two configurations. The first configuration is a 2-D topology with a modified ground plane arrangement. The second configuration employs vertical folding for the ground plane as well as the radiating arm. In addition, vertical copper inserts are embedded within the bowtie single arm to further enhance the compactness of the structure and transform it into a 3-D topology. Both antennas are initially designed to operate at 868 MHz for Internet of Things (IoT) applications, with a digitally reconfigurable frequency operation for wireless communication. The 2-D antenna structure exhibits a 77% size reduction at the IoT operational frequency of 868 MHz in comparison with a similar rectangular patch antenna operating at the same frequency. On the other hand, the 3-D antenna structure reaches 84% of size reduction at the same frequency. A figure of merit (FOM) is derived to prove the superior performance of the presented antenna structure.

Published

2021

7. Wearable flexible body matched electromagnetic sensors for personalized non-invasive glucose monitoring

Author

Jessica, Hanna, Youssef, Tawk, Sami, Azar, Ali H, Ramadan, Batoul, Dia, Elias, Shamieh, Sumaya, Zoghbi, Rouwaida, Kanj, Joseph, Costantine, and Assaad A, Eid

Subjects

Blood Glucose, Wearable Electronic Devices, Glucose, Multidisciplinary, Swine, Blood Glucose Self-Monitoring, Animals, Humans, Electromagnetic Phenomena, Diabetes Mellitus, Experimental, Monitoring, Physiologic, Rats

Abstract

This work introduces novel body-matched, vasculature-inspired, quasi-antenna-arrays that act as electromagnetic sensors to instantaneously, continuously, and wirelessly sense glucose variations in the bloodstream. The proposed sensors are personalized, leverage electromagnetic waves, and are coupled with a custom machine-learning-based signal-processing module. These sensors are flexible, and embedded in wearable garments such as socks, which provide conformity to curved skin surfaces and movement resilience. The entire wearable system is calibrated against temperature, humidity, and movement resulting in high accuracy in glucose variations tracking. In-Vivo experiments on diabetic rats and pigs exhibit a 100% diagnostic accuracy over a wide range of glucose variations. Human trials on patients with diabetes and healthy individuals reveal a clinical accuracy of continuous glucose monitoring of 99.01% in twenty-eight subjects who underwent Oral Glucose Tolerance Tests. Hence, our approach ensures the continuous tracking of glucose variations from hypo-to-hyper glycemic levels with great fidelity.

Published

2022

8. A Four-Element Antenna Array System With 15 Reconfigurable Radiation Patterns

Author

Marios Patriotis, Firas N. Ayoub, Youssef Tawk, Joseph Costantine, and Christos G. Christodoulou

Subjects

General Computer Science, business.industry, Computer science, Reconfigurable pattern, reconfigurable feeding network, General Engineering, Electrical engineering, PIN diode, TK1-9971, law.invention, Beamwidth, Azimuth, Antenna array, sectoral antenna, Electric power transmission, law, Power dividers and directional couplers, General Materials Science, Electrical engineering. Electronics. Nuclear engineering, Dipole antenna, Antenna (radio), business, pattern diversity

Abstract

This paper describes the design of a planar antenna array system with pattern reconfiguration in the azimuthal plane. The antenna array system is designed based on four antenna units where each unit is composed of two printed Yagi-Uda elements that radiate in directional beams over a dedicated sector, thus ensuring maximum isolation with neighboring units. The various units are fed on demand through a reconfigurable structure that is composed of four reconfigurable feeding networks and a one-to-four power divider. The feeding structure distributes the required power to the various radiating units through the activation of the two integrated PIN diodes along each of the four reconfigurable feeding networks. Such activation results in 15 reconfigurable radiation patterns that cover four orthogonal sectors over a fixed operating frequency, at 5.8 GHz. Each antenna unit is designed to exhibit a gain of 9 dBi with a half-power beamwidth of 44° and a sidelobe level of −16 dB. The antenna array is fabricated and tested, where the measured results validate the predicted simulated data.

Published

2021

9. A Millimeter-Wave Frequency Reconfigurable Circularly Polarized Antenna Array

Author

Marios Patriotis, Firas N. Ayoub, Youssef Tawk, Joseph Costantine, and Christos G. Christodoulou

Subjects

Physics, Reconfigurable antenna, Frequency reconfiguration, filtenna, business.industry, Axial ratio, Astrophysics::Instrumentation and Methods for Astrophysics, PIN diodes, TK5101-6720, law.invention, Antenna array, Resonator, band pass filter, Optics, Band-pass filter, law, Extremely high frequency, Telecommunication, Radio frequency, business, Circular polarization

Abstract

This paper discusses the design of a high gain right-hand circularly polarized millimeter-wave frequency reconfigurable antenna array. The 16-element antenna array is designed to reconfigure its operating frequency over both K- and Ka-bands. More specifically, the reconfigurability is ensured through the integration of a modified ring resonator along with the array’s sequentially rotated stacked feeding network. The ring resonator is designed to reconfigure its operating frequency over four distinct bands with center frequencies at 25 GHz, 26 GHz, 27.75 GHz and 29 GHz, respectively. Such integration enables the proposed millimeter-wave antenna array to exhibit unique radiation characteristics by maintaining circular polarization with an Axial Ratio (AR) < 1 dB in a fractional bandwidth of 37.5% between 21.2 GHz and 31 GHz. A Figure of Merit that takes into account the array’s axial ratio, sidelobe levels and fractional bandwidth is developed to highlight the unique performance of the presented millimeter-wave circularly polarized array in comparison to available work in the literature. The fabricated antenna array shows good agreement with the simulated data where it is found that the measured realized gain exceeds 12 dBic with sidelobe levels of less than −17.5 dB over the various frequency bands of the frequency reconfigurable antenna array.

Published

2021

10. Isolation enhanced MIMO PIFA system with multiple reconfiguration techniques

Author

F. A. Asadallah, Youssef Tawk, and Joseph Costantine

Subjects

Computer science, 020208 electrical & electronic engineering, MIMO, Control reconfiguration, 020206 networking & telecommunications, 02 engineering and technology, Antenna efficiency, Inverted-F antenna, Filter (video), 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Radio frequency, Electrical and Electronic Engineering, Antenna (radio), Computer Science::Information Theory, Ground plane

Abstract

In this study, a reconfigurable, two-element, multiple-input multiple-output (MIMO) printed inverted-F antenna (PIFA) is presented with an enhanced isolation ability. The MIMO antenna system is designed using three different reconfiguration techniques that are based on positive-intrinsic-negative diodes, radio frequency micro-electromechanical switches and varactors. Their impact on the performance of the PIFA and the MIMO system is evaluated in terms of radiation characteristics, gain, power dissipated, radiation efficiency, linearity, biasing requirements and MIMO performance. Isolation between the two MIMO antenna elements is enhanced by integrating a reconfigurable band-reject filter within the ground plane between the radiating elements. The band-reject filter is reconfigured simultaneously with the radiating elements, hence resulting in less coupling and better isolation. The MIMO system along its various components is fabricated for the three different reconfiguration techniques and the comparison with predicted data shows great agreement.

Published

2020

11. A Compact Source–Load Agnostic Flexible Rectenna Topology for IoT Devices

Author

Aline Eid, Youssef Tawk, Jimmy Hester, Ali Ramadan, Joseph Costantine, and Manos M. Tentzeris

Subjects

Open-circuit voltage, Computer science, RF power amplifier, Energy conversion efficiency, Schottky diode, 020206 networking & telecommunications, Topology (electrical circuits), 02 engineering and technology, Topology, Rectifier, Rectenna, Transmission line, Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, Radio frequency, Electrical and Electronic Engineering, Energy harvesting, Electrical impedance, Monopole antenna

Abstract

This article presents a new compact lightweight radio frequency (RF) energy harvesting system. The system relies on a dual-tapered transmission line-based matching network that stretches the rectification capability of an integrated Schottky diode. This topology is demonstrated on a 2.4 GHz rigid harvesting system with a resulting power conversion efficiency that reaches up to 58% over 0 dBm input RF power. Its performance is compared with a reference rectifier that relies on a typical open circuit shunt-stub matching network. The rectifier along with a miniaturized monopole antenna is then tailored for a flexible substrate with a resulting efficiency around 50% at 0 dBm input power. The rectifier exhibits an almost flat efficiency over the 2.3–2.5 GHz frequency span despite wide load variations. The system is characterized in multiple bent configurations featuring high and stable performance. It is demonstrated that for different bent states, the proposed flexible harvester does not display large variations in harvested power. Thus, the presented rectenna demonstrates the remarkable combination of compactness, flexibility, and stability. Equipped with these features, such rectifier can be plugged into a variety of sensors, even on wearable surfaces, which makes it ideal for Internet of Things (IoT) applications.

Published

2020

12. A Dynamic Dual Tapered 3-D Printed Nested Helical Antenna

Author

Youssef Tawk

Subjects

Physics, Acoustics, Control reconfiguration, 020206 networking & telecommunications, 02 engineering and technology, Laser, Network topology, law.invention, Radiation pattern, Antenna array, law, Lattice (order), 0202 electrical engineering, electronic engineering, information engineering, Helical antenna, Electrical and Electronic Engineering, Circular polarization

Abstract

In this article, a new 3-D printed dual tapered nested antenna design is presented. The antenna is composed of two tapered helical arms that wrap around each other in opposite orientations to exhibit orthogonal circular polarization schemes. The nested tapered helices are 3-D laser printed with copper platting. The outer helical arm is tailored to resonate at 2.4 GHz, while the inner arm is designed for operation at 5.4 GHz. The overall antenna structure is then arranged as an array of elements that can dynamically alter its lattice in either linear or triangular topologies in order to achieve reconfiguration in the radiation pattern. The change in topologies is driven by programmable robots that can reshape the antenna array’s radiation pattern dynamically and on demand. The whole system is measured and tested for various arrangements where the measured results show good agreement with the simulated data.

Published

2020

13. Enhancing Multi-stability in Helical Lattices for Adaptive Structures

Author

Maria Sakovsky, Rosette M. Bichara, Youssef Tawk, and Joseph Costantine

Published

2022

14. Future Developments in Invasive and Non-invasive Diabetes Monitoring

Author

Frédéric Harb, William S. Azar, Hilda E. Ghadieh, Rachel Njeim, Youssef Tawk, Joseph Costantine, Rouwaida Kanj, and Assaad A. Eid

Published

2022

15. Support Vector Machines for Scheduled Harvesting of Wi-Fi Signals

Author

Youssef Tawk, Serge R. Mghabghab, Joseph Costantine, Mariette Awad, and Aline Eid

Subjects

Computer science, business.industry, Real-time computing, 020206 networking & telecommunications, 02 engineering and technology, Scheduling (computing), Support vector machine, Rectenna, Radio frequency energy, 0202 electrical engineering, electronic engineering, information engineering, Wireless, Radio frequency, Electrical and Electronic Engineering, business, Energy harvesting

Abstract

This letter investigates the incorporation of support vector machines (SVMs) to predict the time and location of maximum Wi-Fi coverage for energy harvesting. Such incorporation of machine learning, along with radio frequency energy harvesting systems, improves the proposed rectenna efficiency especially when scavenging wireless routers and access points. Experiments showed that the proposed framework that uses SVM was able to predict the time and location of maximum Wi-Fi coverage. Such prediction constitutes the basis of a scheduling mechanism for directed harvesting of Wi-Fi signals.

Published

2019

16. Physically Controlled CubeSat Antennas With an Adaptive Frequency Operation

Author

Youssef Tawk

Subjects

Physics, business.industry, Linear polarization, Electrical engineering, Control reconfiguration, 020206 networking & telecommunications, 02 engineering and technology, Polarization (waves), Antenna array, Electrical length, 0202 electrical engineering, electronic engineering, information engineering, CubeSat, Electrical and Electronic Engineering, Actuator, business, Circular polarization

Abstract

This letter advocates the use of mechanical actuation to alter the electrical length of components within antenna elements proposed for implementation onto a CubeSat platform. Such electrical length alteration reconfigures the antenna's frequency operation without affecting its polarization scheme. This concept is first demonstrated on a reconfigurable quadrifilar helix that reconfigures its frequency operation between 750 MHz and 1 GHz, while maintaining a circular polarization behavior. As a second demonstration, a Yagi–Uda antenna is reconfigured by changing the electrical length of its reflector, fed elements, and two directors. Such alteration results in a frequency reconfiguration between 1.2 and 1.5 GHz, while preserving the linear polarization behavior of the antenna array. For both antenna examples, the reconfiguration is implemented through the appropriate mechanical actuators that are integrated within the CubeSat's cavity. As a proof of concept, both structures are fabricated and integrated on the outside chassis of a 6U CubeSat $(\text{10}\times \text{20}\times \text{30}\,\text{cm}^{3})$ , where measured results greatly match the simulated data.

Published

2019

17. Enhanced radio frequency rectifier with a power splitting/combining topology for wireless energy transfer and harvesting

Author

M. Abdallah, Joseph Costantine, Youssef Tawk, and Ali Ramadan

Subjects

Physics, business.industry, 020208 electrical & electronic engineering, Energy conversion efficiency, Direct current, Electrical engineering, 020206 networking & telecommunications, 02 engineering and technology, 0202 electrical engineering, electronic engineering, information engineering, Power dividers and directional couplers, Breakdown voltage, Wireless, Radio frequency, Electrical and Electronic Engineering, business, Energy harvesting, Diode

Abstract

Power splitting of the input radio frequency (RF) signal is used to improve the efficient power range of a RF rectifier. Direct current (dc) power at the output of every rectifying branch is then combined over a resistive load and thus resulting in a single dc output. The enhancement in efficient power range, over which the power conversion efficiency (PCE) remains ≥ 50%, is determined to be 2.8 dB. The article starts by a theoretical analysis that addresses the negative effects of the diode's breakdown voltage, formulates an equation that predicts the maximum output dc voltage at saturation, and introduces a method that can improve the PCE of a typical shunt-type diode rectifier at low power levels. As a result, a rectifying system is designed and tested as a proof of concept. The proposed circuit, with the enhanced power range, is designed to operate within the power span from -10 dBm up until 10 dBm. Such system is suitable for operation in RF wireless energy transfer and energy harvesting applications.

Published

2019

18. A Digitally Tuned Flexible Reconfigurable Antenna for IoT Devices

Author

F. A. Asadallah, Aline Eid, Youssef Tawk, Joseph Costantine, G. Shehadeh, and Manos M. Tentzeris

Subjects

Reconfigurable antenna, business.industry, Computer science, Coplanar waveguide, 020208 electrical & electronic engineering, Electrical engineering, Control reconfiguration, 020206 networking & telecommunications, 02 engineering and technology, Capacitance, Antenna efficiency, law.invention, Capacitor, law, Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, Antenna (radio), business, Ground plane

Abstract

In this paper, a digitally tuned flexible antenna is proposed for integration onto devices within the Internet of Things (IoT) paradigm. The antenna design caters for the various IoT communication standards by reconfiguring its operating frequency. Accordingly, the antenna reconfiguration allows operation at 868 MHz, 915 MHz, 1.8 GHz and 2.1 GHz. The reconfiguration is achieved digitally by resorting to a digitally tunable capacitor (DTC). The DTC changes its capacitance, and hence its frequency operation, by relying on 5-bit sequence commands through a microcontroller. The proposed antenna is coplanar waveguide fed with its ground plane surrounding the radiating structure. The gain of the antenna varies between 4 dB and 6 dB for different frequencies of operation. Its radiation efficiency varies between 78% and 92%. The antenna is fabricated and tested on a flexible substrate, where the resulting reconfigurable prototype maintains its performance characteristics for different bent states.

Published

2020

19. Beam Steering Limitations for Sequentially Rotated Circularly Polarized Phased Antenna Arrays

Author

Youssef Tawk, Joseph Costantine, and A. Jabri

Subjects

Physics, Antenna array, Optics, business.industry, Axial ratio, Beam steering, Topology (electrical circuits), Antenna (radio), Rotation, business, Network topology, Differential phase

Abstract

In this paper, the effect of sequential rotation on the beam steering capabilities of a circularly polarized phased antenna array is analyzed. Two different topologies for a phased antenna array operating at Ka-band between 28 GHz and 40 GHz are studied where each structure is tailored to produce a maximum gain of almost 19 dB with an axial ratio below 0.5 dB. The individual elements of both topologies are dual fed with a differential phase shift of 90° respectively. This paper proves that the steering capability of a phased antenna array is doubled when sequential rotation is omitted from its feeding network.

Published

2020

20. Noninvasive, wearable, and tunable electromagnetic multisensing system for continuous glucose monitoring, mimicking vasculature anatomy

Author

Moussa Bteich, Assaad A. Eid, Joseph Costantine, Youssef Tawk, Jessica Hanna, Ali Ramadan, Batoul Dia, Aline Eid, F. A. Asadallah, and Rouwaida Kanj

Subjects

Blood Glucose, Computer science, Life quality, Time lag, Wearable computer, 030209 endocrinology & metabolism, 02 engineering and technology, Artificial pancreas, Wearable Electronic Devices, 03 medical and health sciences, Engineering, 0302 clinical medicine, Diabetes Mellitus, Animals, Humans, Research Articles, Monitoring, Physiologic, Multidisciplinary, Continuous glucose monitoring, Blood Glucose Self-Monitoring, SciAdv r-articles, 021001 nanoscience & nanotechnology, Highly sensitive, Applied Sciences and Engineering, 0210 nano-technology, Research Article, Biomedical engineering

Abstract

A wearable, continuous electromagnetic sensing system provides 96% glucose estimation accuracy when tested on healthy individuals., Painless, needle-free, and continuous glucose monitoring sensors are needed to enhance the life quality of diabetic patients. To that extent, we propose a first-of-its-kind, highly sensitive, noninvasive continuous glycemic monitoring wearable multisensor system. The proposed sensors are validated on serum, animal tissues, and animal models of diabetes and in a clinical setting. The noninvasive measurement results during human trials reported high correlation (>0.9) between the system’s physical parameters and blood glucose levels, without any time lag. The accurate real-time responses of the sensors are attributed to their unique vasculature anatomy–inspired tunable electromagnetic topologies. These wearable apparels wirelessly sense hypo- to hyperglycemic variations with high fidelity. These components are designed to simultaneously target multiple body locations, which opens the door for the development of a closed-loop artificial pancreas.

Published

2020

21. Nesting Dual Tapered Additively Manufactured Helical Antennas for Size Reduction Constraints

Author

Youssef Tawk and Joseph Costantine

Subjects

Quantitative Biology::Biomolecules, Materials science, business.industry, Orthogonal polarization spectral imaging, 020208 electrical & electronic engineering, Physics::Optics, Nesting (process), 020206 networking & telecommunications, 02 engineering and technology, Radiation, Laser, Span (engineering), law.invention, Dual (category theory), Optics, law, 0202 electrical engineering, electronic engineering, information engineering, Helical antenna, business, Circular polarization

Abstract

This paper presents novel dual tapered helical antenna structures that are 3D printed and nested within each other for size reduction. Each tapered helical antenna element is designed to operate at a distinct span of frequencies. The two helical antennas are nested together and wrapped in opposite direction to each other in order to satisfy orthogonal polarization. The two helical elements are fabricated using a laser based 3-D printing process where good measured radiation behavior is obtained.

Published

2020

22. A Rectenna System With Power Combining Topology for Improved Power Handling Capabilities

Author

M. Abdallah, Youssef Tawk, Joseph Costantine, and Ali Ramadan

Subjects

Rectifier, Rectenna, Computer science, Direct current, Schottky diode, Topology (electrical circuits), Radio frequency, Electrical and Electronic Engineering, Antenna (radio), Topology, Instrumentation, Hardware_LOGICDESIGN, Power (physics)

Abstract

This article proposes a new rectenna system that is based on a radio frequency (RF) rectifying circuit with enhanced power handling capabilities. The rectenna consists of an antenna that receives the RF signal and a rectifying circuit that converts it into a direct current (dc) output. The rectifier's power handling capability is improved by delaying the breakdown effect of a Schottky diode, resulting in higher maximum dc output power. The power handling capability enhancement is attained by splitting the received RF signal and directing it to feed multiple rectifying branches. The dc outputs from all branches are then combined across an optimized load. This topology results in a single-input single-output rectifier. The designed rectenna is fabricated and tested. The results indicate a 1.9 times increase in input power at which breakdown occurs. The rectenna system is proposed for use in wireless energy transfer applications, where dedicated power is transmitted towards the rectifier. This rectifier can be integrated into nodes of a wireless sensor network, where the enhanced power handling capabilities contribute to enhance the breakdown characteristics.

Published

2018

23. An Antenna System With a Voice-Controlled Personalized Switchable Radiation Coverage

Author

Youssef Tawk, Zahi Ghorayeb, F. A. Asadallah, Yara Itani, Tala Al-Bahar, Rouwaida Kanj, Joseph Costantine, and Christos G. Christodoulou

Subjects

business.industry, Computer science, MIMO, Electrical engineering, 020206 networking & telecommunications, 02 engineering and technology, Radiation, Radiation pattern, law.invention, law, 0202 electrical engineering, electronic engineering, information engineering, Wi-Fi, Electrical and Electronic Engineering, Android (operating system), business, Mobile device

Abstract

This letter discusses an antenna system that steers its radiation pattern to personalize coverage in a wireless local area network scenario. The change in the pattern occurs either by mechanically rotating or electrically switching the feeding network toward the appropriate antenna structure. The user controls the personalized coverage using an Android-based voice recognition application on a mobile device. Each antenna structure operates at 5.28 GHz with 110 MHz bandwidth and an increased gain around 7.5 dB. The antenna's radiation insures a redistributed sector coverage of two diametrically opposite geographical zones that are 180° apart from each other. A multiple-input–multiple-output (MIMO) implementation is also proposed with a discussion on the various possible coverage zones. The various antenna concepts are measured, and the results validate the predicted data.

Published

2018

24. A Communicating Antenna Array with a Dual-Energy Harvesting Functionality [Wireless Corner]

Author

Christos G. Christodoulou, Youssef Tawk, F. Ayoub, and Joseph Costantine

Subjects

business.industry, Computer science, 020208 electrical & electronic engineering, Electrical engineering, 020206 networking & telecommunications, Topology (electrical circuits), 02 engineering and technology, Condensed Matter Physics, Solar energy, Power (physics), Antenna array, Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, Wireless, ComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMS, Radio frequency, Electrical and Electronic Engineering, Antenna (radio), business, Energy harvesting

Abstract

This article discusses the design and dual functionality of two antenna arrays that operate from 1.8 to 2.4 GHz. Each antenna array is composed of two elements and proposed for either communication or radio-frequency (RF) energy harvesting. The antenna arrays are integrated vertically on top of a solar panel. Copper-based and transparent inverted-F antennas constitute the elements of both arrays. The transparent array has the same dimensions and topology as the copperbased one. Its purpose is to verify that the integration of the copper-based inverted-F antenna arrays on top of the solar panel does not majorly impact the solar panel's efficiency. A rectifying circuit that is positioned at the output of both arrays is also designed and tested. The rectifying circuit converts the collected RF energy into dc power that can supplement the solar panel's supply during the absence of solar energy. The measured performance results of the fabricated system, which is composed of the two array antennas in addition to the rectifying circuit, show good agreement with the simulated data.

Published

2018

25. A Software-Defined Frequency-Reconfigurable Meandered Printed Monopole

Author

Youssef Tawk, S. Saab, Joseph Costantine, F. Ayoub, A. El-Amine, and C. G. Christodoulou

Subjects

010302 applied physics, business.industry, Computer science, Interface (computing), Electrical engineering, PIN diode, 020206 networking & telecommunications, 02 engineering and technology, 01 natural sciences, law.invention, Microcontroller, GSM, law, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Antenna (radio), business, UMTS frequency bands, Diode, Graphical user interface

Abstract

In this letter, a frequency-reconfigurable printed meandered monopole structure is presented. The antenna structure is composed of three radiating parts that are connected through two integrated PIN diodes. Such integration allows the antenna to reconfigure its operation within four frequency bands that correspond to various LTE, UMTS, and GSM channels. A graphical user interface (GUI) using Java is employed to control the states of the switches. The interface allows the control of a microcontroller to supply appropriate current to each of the two diodes. The GUI also simulates a cognitive radio environment where the activation of the corresponding PIN diodes is determined by the users’ activities. A prototype is fabricated and tested as a proof of concept where measured results agree with simulated data.

Published

2018

26. An Eight-Element Reconfigurable Diversity Dipole System

Author

Christos G. Christodoulou, Joseph Costantine, and Youssef Tawk

Subjects

Fabrication, Computer science, Acoustics, 020208 electrical & electronic engineering, 020206 networking & telecommunications, 02 engineering and technology, Antenna diversity, law.invention, Dipole, Diversity gain, law, 0202 electrical engineering, electronic engineering, information engineering, Dipole antenna, Electrical and Electronic Engineering, Electrical impedance, Multipath propagation, Computer Science::Information Theory, Rayleigh fading

Abstract

In this paper, an antenna system that is composed of eight radiating elements is presented. The eight elements consist of a set of four curved dipoles and another set of four straight dipoles, providing two diversity antenna structures. Each curved and straight dipole is designed to produce a focused gain pattern toward one dedicated quadrant. A parasitic printed reflector is introduced into the center section of the top layer of the proposed antenna to enhance the matching and the gain pattern redirection capabilities of each radiating element. In addition, the printed reflector further enhances the isolation between the various elements. The assessment of the proposed diversity antenna system is performed in a rich multipath environment for various propagation scenarios. A diversity gain between 16.5 and 19.1 dB is attained for a 1% probability level and by assuming a Rayleigh fading channel for both structures. The control of the feeding of the various elements for both diversity structures is achieved through the design and incorporation of four reconfigurable feeding networks within the antenna system. Fabrication and testing of various prototypes display very good agreement between the simulation and measured results, which validate the presented designs.

Published

2018

27. A Multiband Compact Reconfigurable PIFA Based on Nested Slots

Author

Joseph Costantine, F. A. Asadallah, and Youssef Tawk

Subjects

Computer science, Capacitive sensing, Antenna design, 020208 electrical & electronic engineering, Control reconfiguration, 020206 networking & telecommunications, 02 engineering and technology, Planar, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Electrical and Electronic Engineering, Antenna (radio), Reflection coefficient, Mobile device, Diode

Abstract

This letter presents a new planar inverted-F antenna design that is dedicated for integration within mobile devices such as phones and tablets. The proposed antenna structure is based on nested capacitive slots in order to achieve a multiband behavior. The presented antenna is also reduced in size by 60%. The antenna is then reconfigured using positive-intrinsic-negative (p-i-n) diodes that are embedded within the antenna structure. Frequency reconfiguration is achieved to ensure that all the various commercial and required bands of interest are covered. Two prototypes are fabricated and measured where good agreement is noticed between the simulated and measured data.

Published

2018

28. The Miniaturization of a Partially 3-D Printed Quadrifilar Helix Antenna

Author

Youssef Tawk, Michel Chahoud, Marwan Fadous, Joseph Costantine, and Christos G. Christodoulou

Subjects

Materials science, Coaxial antenna, business.industry, Acoustics, 020208 electrical & electronic engineering, Antenna measurement, 020206 networking & telecommunications, 02 engineering and technology, Antenna factor, law.invention, Microstrip antenna, law, 0202 electrical engineering, electronic engineering, information engineering, Rubber ducky antenna, Helical antenna, Dipole antenna, Electrical and Electronic Engineering, Telecommunications, business, Monopole antenna

Abstract

In this paper, the design and implementation of a quadrifilar helix antenna are presented where the four arms are 3-D printed. The antenna structure is miniaturized by resorting to a combination of two approaches. The first approach is based on loading the tips of the four helical arms with circular conductive disks. The size and location of these elements directly affect the antenna’s operating frequency. The second miniaturization approach is based on incorporating an FR-4 dielectric material into the vacant space between the four arms of the quadrifilar helix. As a result, the length of the antenna is reduced by a ratio of 43%. The quadrifilar helix antenna is also designed on top of a ground plane with an optimized conical shape and topology. The antenna is partially fabricated using 3-D printing additive technology, where measurements show great agreement with simulated results.

Published

2017

29. Reconfiguring the Frequency and Directive Behavior of a Printed V–Shaped Structure

Author

Joseph Costantine, Christos G. Christodoulou, and Youssef Tawk

Subjects

Computer science, Acoustics, Random wire antenna, Slot antenna, 02 engineering and technology, Antenna rotator, Antenna tuner, Radio spectrum, Radiation pattern, law.invention, 03 medical and health sciences, Microstrip antenna, 0302 clinical medicine, law, 0202 electrical engineering, electronic engineering, information engineering, Antenna feed, Dipole antenna, Helical antenna, Electrical and Electronic Engineering, Omnidirectional antenna, Monopole antenna, Reconfigurable antenna, Coaxial antenna, Directional antenna, business.industry, Antenna measurement, 020206 networking & telecommunications, Antenna factor, Antenna efficiency, Periscope antenna, Optoelectronics, Antenna blind cone, Antenna (radio), business, 030217 neurology & neurosurgery

Abstract

In this communication, a frequency and pattern reconfigurable V–shaped printed antenna is presented. The proposed structure operates at two different frequency bands. The variation in the frequency of operation is achieved by individually extending the length of each of the two antenna arms. The directional behavior of the proposed antenna structure is improved through the incorporation of a triangular parasitic element within the empty space between the two antenna arms. More specifically, the antenna is able to steer its gain pattern to either the left or right directions based on which arm of the V–shaped printed structure is fed. A prototype structure is fabricated and tested to validate the proposed approach in achieving directional behavior over two distinct frequency bands.

Published

2017

30. Wirelessly Automated Reconfigurable Antenna With Directional Selectivity

Author

Maria Nassif, Joseph Costantine, Fadi Makhlouf, Christos G. Christodoulou, Leonel Geagea, and Youssef Tawk

Subjects

General Computer Science, Computer science, Random wire antenna, 02 engineering and technology, Antenna rotator, Antenna tuner, Directivity, Microstrip, law.invention, Radiation pattern, Bluetooth, 03 medical and health sciences, Microstrip antenna, 0302 clinical medicine, law, 0202 electrical engineering, electronic engineering, information engineering, J-pole antenna, General Materials Science, Dipole antenna, Omnidirectional antenna, pattern diversity, Monopole antenna, Computer Science::Information Theory, Ground plane, Patch antenna, Reconfigurable antenna, Directional antenna, Coaxial antenna, software control, business.industry, Antenna measurement, General Engineering, Electrical engineering, 020206 networking & telecommunications, Antenna factor, Antenna efficiency, Periscope antenna, microcontroller, Embedded system, Antenna blind cone, Directive antenna, reconfigurable antenna, lcsh:Electrical engineering. Electronics. Nuclear engineering, Antenna (radio), Selectivity, business, lcsh:TK1-9971, 030217 neurology & neurosurgery

Abstract

In this paper, a frequency reconfigurable antenna system with a directional selectivity is presented. The reconfiguration of the antenna's radiation characteristics is wirelessly controlled through a mobile phone and a microcontroller. The antenna system is a multi-element radiator composed of four monopoles on top of a hexagonal ground plane, in addition to four rectangular microstrip two-elements antenna arrays. The monopoles and the microstrip arrays are designed to contribute to the communication requirements of the complete system. The position, orientation, and topology of the various antennas are optimized to achieve the required frequency reconfigurability in addition to the variable selective directivity performance. The whole system is fabricated and integrated in a single compact unit controlled by a microcontroller, four servo motors, and a Bluetooth module. The antenna system is tested and the measured results confirm the validity of the proposed design.

Published

2017

31. A Slot Antenna for Non-invasive Detection of Blood Constituents Concentrations

Author

Rouwaida Kanj, Ali Ramadan, Assaad A. Eid, Youssef Tawk, Jessica Hanna, and Joseph Costantine

Subjects

0301 basic medicine, Materials science, fungi, Non invasive, Phase (waves), Slot antenna, macromolecular substances, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, biological sciences, polycyclic compounds, sense organs, Antenna (radio), Reflection coefficient, Sensitivity (electronics), 030217 neurology & neurosurgery, Biomedical engineering

Abstract

In this paper, we propose a new slot antenna for non-invasive detection of the concentrations of blood constituents. The designed antenna is composed of multiple slots that are optimized to enhance its sensitivity to the bound medium. To test its performance, the antenna is loaded by a foam container filled with fetal bovine serum (FBS) solution whose glucose concentration levels are varied. Accordingly, the magnitude and phase of the antenna’s reflection coefficient (S 11 ) are monitored at multiple frequencies for various glucose levels. A good correlation between the antenna’s S 11 and reference glucose levels, which are measured with an invasive glucometer, is observed.

Published

2019

32. A Reconfigurable Wideband Feeding Network for Polarization Diverse Antenna Arrays

Author

Youssef Tawk and Joseph Costantine

Subjects

Antenna array, Computer science, Frequency band, 0202 electrical engineering, electronic engineering, information engineering, Phase (waves), Electronic engineering, Control reconfiguration, 020206 networking & telecommunications, Biasing, 02 engineering and technology, Helical antenna, Wideband, Polarization (waves)

Abstract

This paper presents an active 8-port feeding network that achieves a full range 360° phase coverage. The network is designed to only require a phase shift tuning of 180°. The performance of the proposed feeding network along its various active components can be achieved by necessitating less than 4 V of biasing voltage requirements. The feeding network is tested on an array of eight circularly polarized helical antenna elements where polarization reconfiguration in the radiated fields is achieved. The control of the phase shift between the feeding network ports allows the overall antenna array to change its polarization across the entire frequency band of interest between 1.7 GHz and 2.3 GHz.

Published

2019

33. A Log-Periodic based Broadband Reject Filter for Dielectric Constant Characterization

Author

Youssef Tawk, Rouwaida Kanj, Ali Ramadan, Joseph Costantine, Moussa Bteich, and Assaad A. Eid

Subjects

Materials science, Acoustics, 020208 electrical & electronic engineering, 020206 networking & telecommunications, 02 engineering and technology, Dielectric, Band-stop filter, Span (engineering), Resonator, Filter (video), Broadband, 0202 electrical engineering, electronic engineering, information engineering, Feed line, Sensitivity (control systems)

Abstract

In this paper, a broadband reject filter for dielectric constant characterization is presented. Four complementary open loop resonators (OLRs), which follow a modified log-periodic distribution, are etched beneath a tapered feed line to achieve a broadband rejection response for the proposed filter. The configuration of the embedded log-periodic resonators is designed to attain high sensitivity to lossy material over the 1.25-2.25 GHz frequency span. A prototype of the proposed filter is fabricated and tested to validate its sensitivity and performance in terms of differentiating among various dielectric constant levels for a material under test (MUT). An average sensitivity of 0. 42 dB/e r and 3. 65°/e r is achieved at f = 2. 25 GHz.

Published

2019

34. UHF Deployable Helical Antennas for CubeSats

Author

Youssef Tawk, Maria Sakovsky, Christos G. Christodoulou, Sergio Pellegrino, Joseph Costantine, Gina Olson, and Ignacio Maqueda

Subjects

Spiral antenna, Frequency band, Computer science, business.industry, Electrical engineering, Mechanical engineering, 020206 networking & telecommunications, 02 engineering and technology, Beryllium copper, engineering.material, Radiation, 021001 nanoscience & nanotechnology, Ultra high frequency, 0202 electrical engineering, electronic engineering, information engineering, engineering, Helical antenna, Electrical and Electronic Engineering, 0210 nano-technology, business, Electrical conductor

Abstract

The design process and the deployment mechanism of a quadrifilar helix antenna (QHA) and a conical log spiral antenna (CLSA) are presented. The two antennas are proposed to operate in the UHF frequency band. They are composed of conductors that are embedded and supported by innovative structural techniques. This allows efficient folding, packaging, and deployment once in space. The conductors in the QHA are composed of beryllium copper and are supported by helical arms of $S_{2}$ glass fiber reinforced epoxy. The CLSA, on the other hand, has conductors that are made out of a mesh of phosphor bronze and incorporated inside thin insulators composed of continuous fiber composites. The new aspects of these designs lie in their structures and deployment mechanisms. The deployment mechanisms for both antennas include helical pantograph and origami patterns such as Z-folding configurations. Both antennas are fabricated and tested for both deployment and radiation performance. A comparison is executed between both designs, and their potential deployment possibilities from CubeSats are also investigated.

Published

2016

35. A Load Independent Tapered RF Harvester

Author

Youssef Tawk, Joseph Costantine, M. Abdallah, Assaad A. Eid, and Ali Ramadan

Subjects

Engineering, business.industry, 020208 electrical & electronic engineering, Impedance matching, Electrical engineering, Schottky diode, Impedance bridging, 020206 networking & telecommunications, Topology (electrical circuits), 02 engineering and technology, Input impedance, Condensed Matter Physics, 0202 electrical engineering, electronic engineering, information engineering, Output impedance, Electrical and Electronic Engineering, business, Electrical impedance, Dual impedance

Abstract

This letter proposes a new matching technique that is based on a network of dual line topology with different characteristic impedances. The purpose of this network is to match the Schottky diode’s input impedance in a rectifying circuit with the 50 $\Omega $ source impedance. The strength of the proposed technique is based on the fact that it enables a stable efficiency response for different input power levels. It also forces the rectifier to exhibit an almost flat efficiency curve over a wide range of load variations. The proposed circuit is built and measured, where an agreement is attained between simulations and measured results over the IEEE 802.11 b/g bands.

Published

2017

36. Electromagnetic Based Devices for Non-invasive Glucose Monitoring

Author

Youssef Tawk, Jessica Hanna, Assaad A. Eid, Ali Ramadan, Joseph Costantine, and Rouwaida Kanj

Subjects

Band-pass filter, Computer science, Continuous glucose monitoring, InformationSystems_INFORMATIONSYSTEMSAPPLICATIONS, 010401 analytical chemistry, Non invasive, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, 020206 networking & telecommunications, 02 engineering and technology, Sensitivity (control systems), 01 natural sciences, 0104 chemical sciences

Abstract

This paper presents an overall review of the most recent electromagnetic (EM) based techniques that are employed for non-invasive, continuous glucose monitoring. The different types of EM based sensors are discussed and their challenges are addressed. Such sensors have proven to provide good sensitivity to glucose variation in blood. However, they exhibit some significant downfalls that must be addressed in the design of any future EM based device.

Published

2018

37. A Miniaturized Reconfigurable UHF Antenna

Author

Youssef Tawk, Rouwaida Kanj, J. Aboul Hosn, Joseph Costantine, B. Abou Ali Modad, H. Abdul Khalek, and F. A. Asadallah

Subjects

Materials science, business.industry, Loop antenna, 020206 networking & telecommunications, 02 engineering and technology, Planar, 0202 electrical engineering, electronic engineering, information engineering, Miniaturization, Optoelectronics, Radio frequency, Air gap (plumbing), Internet of Things, business, Uhf antennas, Ground plane

Abstract

This paper presents a novel planar reconfigurable meandered loop antenna that is suitable for Internet of Things (IoT) applications. This antenna reconfigures its frequency of operation between two ISM bands, 760 MHz and 575 MHz. The antenna structure also has three folded edges, six layers and with total dimensions of 40×40mm2. The top layer (layer 1) is a meandered loop patch placed on top of a dielectric substrate and an air gap. The patch is fed through a shorting sheet from the feeding network. The feeding network constitutes the fourth layer of the antenna structure, which is placed on top of a dielectric layer and a full ground plane. The antenna has a compact size with miniaturization percentage of 70% at 760 MHz and 80% at 575 MHz.

Published

2018

38. A 3D Printed Tunable Phase Shifter

Author

Youssef Tawk, Derek Doyle, Christos G. Christodoulou, and Grant D. Heilman

Subjects

3d printed, Materials science, Liquid-crystal display, business.industry, 020206 networking & telecommunications, 02 engineering and technology, Solid modeling, law.invention, 3d printer, law, Liquid crystal, Proof of concept, Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Radio frequency, Hardware_ARITHMETICANDLOGICSTRUCTURES, business, Phase shift module, Hardware_LOGICDESIGN

Abstract

A tunable phase shifter is presented in this paper. The phase shifter is built using a multi-material 3D printer and is presented as a proof of concept for a 3D printed Liquid Crystal Device (LCD).

Published

2018

39. A Flexible Compact Rectenna for 2.40Hz ISM Energy Harvesting Applications

Author

Aline Eid, Jimmy Hester, Tong-Hong Lin, Joseph Costantine, Youssef Tawk, Manos M. Tentzeris, Abdullah Nauroze, and Ali Ramadan

Subjects

010302 applied physics, Materials science, business.industry, Bent molecular geometry, Electrical engineering, 020206 networking & telecommunications, 02 engineering and technology, 01 natural sciences, Rectifier, Rectenna, Electric power transmission, Hardware_GENERAL, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Radio frequency, business, Energy harvesting, Monopole antenna, ISM band

Abstract

This paper presents a new compact ultra-lightweight radio frequency (RF) energy harvester fabricated on a flexible substrate. The proposed rectenna is designed to operate over the 2.4GHz ISM band. The rectifier includes a dual transmission lines tapered matching network that provides a combination of compactness, flexibility and an efficiency of up to 40%. The rectifier is then integrated with a miniaturized monopole antenna to form an ultra-compact, efficient and flexible rectenna. The system is characterized in multiple bent configurations featuring high and stable performance. It is demonstrated that for different bent states, the proposed flexible harvester displays a variation in harvested power that is less than 57 %.

Published

2018

40. A Digitally Tuned Reconfigurable Semi-Bowtie Antenna for IoT Devices

Author

Joseph Costantine, F. A. Asadallah, and Youssef Tawk

Subjects

Waveguide (electromagnetism), Computer science, business.industry, 020208 electrical & electronic engineering, Electrical engineering, Control reconfiguration, 020206 networking & telecommunications, Hardware_PERFORMANCEANDRELIABILITY, 02 engineering and technology, Capacitance, law.invention, Microcontroller, Capacitor, Hardware_GENERAL, law, Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, State (computer science), Hardware_ARITHMETICANDLOGICSTRUCTURES, Antenna (radio), business, Internet of Things

Abstract

In this paper, a compact reconfigurable semibowtie antenna design operating at 868MHz, 915 MHz, 1.8 GHz and 2.1 GHz is presented. Reconfiguration of the design is achieved by resorting to a digitally tunable capacitor (DTC). The capacitance change of the DTC occurs based on 5 bits sequence commands through a microcontroller. Changing the command sequences leads to frequency reconfiguration. The antenna is waveguide coplanar fed with a gain that varies from 0.2 dB to 2.7 dB in function of the frequency of operation and the reconfiguration state. The presented antenna is proposed for implementation for internet of things (IoT) devices.

Published

2018

41. A Cognitive Radio Simulator for Mobile Autonomous Reconfigurable Antennas

Author

Joseph Costantine, Youssef Tawk, A. El-Amine, Sandy Saab, and C. G. Christodoulou

Subjects

Cognitive radio, Computer science, Simulation

Published

2018

42. Reconfigurable Antennas: Design and Applications

Author

Christos G. Christodoulou, Youssef Tawk, S.E. Barbin, and Joseph Costantine

Subjects

3G MIMO, Reconfigurable antenna, Engineering, business.industry, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Conformal antenna, Smart antenna, Control reconfiguration, Multi-user MIMO, law.invention, Computer Science::Hardware Architecture, Cognitive radio, law, Electronic engineering, Electrical and Electronic Engineering, Antenna (radio), business, Computer Science::Information Theory

Abstract

The advancement in wireless communications requires the integration of multiple radios into a single platform to maximize connectivity. In this paper, the design process of reconfigurable antennas is discussed. Reconfigurable antennas are proposed to cover different wireless services that operate over a wide frequency range. They show significant promise in addressing new system requirements. They exhibit the ability to modify their geometries and behavior to adapt to changes in surrounding conditions. Reconfigurable antennas can deliver the same throughput as a multiantenna system. They use dynamically variable and adaptable single-antenna geometry without increasing the real estate required to accommodate multiple antennas. The optimization of reconfigurable antenna design and operation by removing unnecessary redundant switches to alleviate biasing issues and improve the system's performance is discussed. Controlling the antenna reconfiguration by software, using Field Programmable Gate Arrays (FPGAs) or microcontrollers is introduced herein. The use of Neural Networks and its integration with graph models on programmable platforms and its effect on the operation of reconfigurable antennas is presented. Finally, the applications of reconfigurable antennas for cognitive radio, Multiple Input Multiple Output (MIMO) channels, and space applications are highlighted.

Published

2015

43. A Bottom Fed Deployable Conical Log Spiral Antenna Design for CubeSat

Author

Anthony J. Ernest, Youssef Tawk, Joseph Costantine, and Christos G. Christodoulou

Subjects

Patch antenna, Physics, Coaxial antenna, business.industry, Acoustics, Antenna measurement, Antenna factor, Antenna tuner, law.invention, Optics, law, Dipole antenna, Electrical and Electronic Engineering, Antenna (radio), business, Monopole antenna, Computer Science::Information Theory

Abstract

A conical log spiral antenna is presented with a new feeding scheme. This antenna is proposed for deployment on a CubeSat platform where the new feeding technique allows for easier antenna deployment. The antenna is composed of two arms that are wrapped around each other in a log-periodic manner. It is designed on top of a ground plane allowing its bottom feeding property. The feeding network is composed of quarter-wavelengths transmission lines connected to a planar balun. The feeding network along with the balun provides the antenna with the appropriate impedance matching and phase shift between the two arms. The antenna is fabricated and tested. The measurement and simulation results show good agreement.

Published

2015

44. A frequency reconfigurable meander monopole antenna for cognitive radio

Author

F. Ayoub, A. El-Amine, Youssef Tawk, Christos G. Christodoulou, Joseph Costantine, and S. Saab

Subjects

Reconfigurable antenna, business.industry, Computer science, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, 020208 electrical & electronic engineering, Antenna measurement, Astrophysics::Instrumentation and Methods for Astrophysics, Electrical engineering, 020206 networking & telecommunications, 02 engineering and technology, Antenna rotator, Antenna tuner, law.invention, Hardware_GENERAL, law, 0202 electrical engineering, electronic engineering, information engineering, Dipole antenna, Antenna (radio), business, Omnidirectional antenna, Monopole antenna, Computer Science::Information Theory

Abstract

This paper presents the design of a meander printed monopole antenna dedicated for cognitive radio on mobile devices. The proposed antenna structure is able to reconfigure its operating frequency while preserving its gain pattern characteristics over the different bands. The antenna operation is controlled through a built-in graphical user interface. The interface can control the antenna based on the activity of users in a cognitive radio setup.

Published

2017

45. A digitally tuned reconfigurable patch antenna for IoT devices

Author

F. A. Asadallah, Youssef Tawk, Joseph Costantine, Leonardo Lizzi, Fabien Ferrero, Christos G. Christodoulou, American University of Beirut [Beyrouth] (AUB), Notre Dame University-Louaize [Lebanon] (NDU), Laboratoire d'Electronique, Antennes et Télécommunications (LEAT), Université Nice Sophia Antipolis (... - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Centre National de la Recherche Scientifique (CNRS)-Université Côte d'Azur (UCA), Department of Electrical and Computer Engineering [Albuquerque] (ECE Department), The University of New Mexico [Albuquerque], IEEE, CREMANT, Université Côte d'Azur (UCA)-Université Nice Sophia Antipolis (... - 2019) (UNS), and COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Engineering, word length 5.0 bit, Low Power Wide Area Network, GPS, IoT patch antenna, 02 engineering and technology, Antenna rotator, circular patch, gain 0.2 dB to 6.0 dB, LoRa, law.invention, 0302 clinical medicine, law, 0202 electrical engineering, electronic engineering, information engineering, Dipole antenna, digitally tuned reconfigurable patch antenna, microstrip antennas, reconfigurable patch antenna design, reconfiguration state, frequency 2.4 GHz, frequency reconfiguration, Antenna radiation patterns, frequency 1.58 GHz, {Bluetooth, [SPI.ELEC]Engineering Sciences [physics]/Electromagnetism, digitally tunable capacitor, reconfigurable antenna, Antenna (radio), microcontrollers, Capacitance, Capacitors, Dipole antennas, Antenna tuner, 03 medical and health sciences, Microstrip antenna, DTC capacitance, Hardware_GENERAL, Global Positioning System, Electronic engineering, frequency 868.0 MHz, Omnidirectional antenna, Patch antennas, Patch antenna, Reconfigurable antenna, business.industry, digital tunable capacitor (DTC), Bluetooth, 020206 networking & telecommunications, planar antenna, internet of things, internet of things applications, IoT devices, business, 030217 neurology & neurosurgery, UHF antennas

Abstract

International audience; In this paper, a reconfigurable patch antenna design operating at 868MHz for Low Power Wide Area Network (LoRa), 1.58 GHz for Global Positioning System (GPS) and 2.4 GHz for Bluetooth is presented. The design is reconfigurable thanks to the integration of a digitally tunable capacitor (DTC). The DTC capacitance changes according to a 5 bits' sequence command. A microcontroller is used to assign the required sequence, and thus leading to frequency reconfiguration. The antenna is a circular patch with a gain that varies from 0.2 dB to 6 dB based on the desired frequency of operation and the reconfiguration state. The antenna is designed for internet of things (IoT) applications.

Published

2017

46. 2-D cross slotted W-band waveguides array

Author

Youssef Tawk, Steven A. Lane, Joseph Costantine, Christos G. Christodoulou, F. Ayoub, and E. Ardelean

Subjects

Beamwidth, Engineering, Optics, W band, business.industry, Array gain, business, Communications system

Abstract

This paper discusses the design of an 8×16 cross slotted rectangular waveguide array. The array produces a gain of 25 dB at 86 GHz. Great isolation is achieved between the Left Hand Circularly Polarized (LHCP) and Right Hand Circularly Polarized (RHCP) patterns over the entire Half Power Beamwidth (HPBW). Feeding the array at different ports enables both LHCP and RHCP radiation patterns. The array can be proposed for space communication in addition to its ability to be deployed into terrestrial communication systems.

Published

2017

47. Multi-port RF energy harvester with a tapered matching network

Author

Joseph Costantine, Youssef Tawk, Ali Ramadan, M. Abdallah, Aline Eid, and Christos G. Christodoulou

Subjects

Engineering, business.industry, Electrical engineering, 020206 networking & telecommunications, Topology (electrical circuits), 02 engineering and technology, Input impedance, Characteristic impedance, RF probe, Rectenna, Rectifier, Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Radio frequency, business, Electrical impedance, Hardware_LOGICDESIGN

Abstract

This paper presents a new radio frequency (RF) rectifying design that is based on a tapered matching network. The rectifier operates over the Wi-Fi 802.11 b/g bands. The tapered matching network aims at transforming the Schottky diode's impedance into the input impedance of the circuit by resorting to dual transmission lines. Each line is designed with a different characteristic impedance. The rectifier topology is then integrated into a multiport RF energy harvesting system that relies on RF combining. The multi-port rectifier system shows excellent harvesting capabilities with an increased output DC voltage.

Published

2017

48. An efficient RF energy harvesting system

Author

R. ElHajj, Youssef Tawk, M. Abdallah, Ali Ramadan, R. Awad, I. B. Kasbah, Aline Eid, and Joseph Costantine

Subjects

Power management, 010407 polymers, Engineering, business.industry, Electrical engineering, 020206 networking & telecommunications, Slot antenna, 02 engineering and technology, 01 natural sciences, 0104 chemical sciences, Power (physics), Rectenna, G band, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Radio frequency, business, Electrical impedance, Energy harvesting

Abstract

This paper proposes a new radio frequency (RF) energy harvesting system that operates over the Wi-Fi 802.11 b/g band at low input power levels. The system presented herein achieves good power conversion efficiencies (PCEs) over a power range that extends from (−20 dBm) to (3 dBm). A directive slot antenna is incorporated to drive the rectification process of the designed rectenna. The rectenna system is measured and tested, along with a power management circuitry, for design validation purposes. A good agreement between simulated and measured results is attained.

Published

2017

49. Isolation enhancement in MIMO reconfigurable PIFAs for mobile devices

Author

Joseph Costantine, Christos G. Christodoulou, F. A. Asadallah, and Youssef Tawk

Subjects

3G MIMO, Reconfigurable antenna, Engineering, Directional antenna, business.industry, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, 020208 electrical & electronic engineering, MIMO, Smart antenna, 020206 networking & telecommunications, Slot antenna, Data_CODINGANDINFORMATIONTHEORY, 02 engineering and technology, law.invention, Hardware_GENERAL, law, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Antenna (radio), Omnidirectional antenna, business, Computer Science::Information Theory

Abstract

This paper focuses on enhancing multiband isolation between two antenna elements in a reconfigurable multiple input multiple output (MIMO) system. The antennas are reconfigurable printed inverted F antennas (PIFA) that resort to two PIN diodes each to achieve frequency reconfiguration. The isolation between the antenna elements is proposed to be improved through the use of multiple nested slots in the common ground plane between the elements. These slots collectively act as a multi-band reject filter and improve the isolation at the various operational frequencies of the antenna system. The reconfigurable MIMO antenna system is proposed for integration into mobile devices with an operation that covers mobile communication applications.

Published

2017

50. Reconfigurable antenna system with a movable ground plane for cognitive radio

Author

Youssef Tawk, Jonathan Woodland, Noah Flaum, Joseph Costantine, and Christos G. Christodoulou

Subjects

Patch antenna, Engineering, Coaxial antenna, business.industry, Acoustics, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Astrophysics::Instrumentation and Methods for Astrophysics, Random wire antenna, Data_CODINGANDINFORMATIONTHEORY, Antenna rotator, Microstrip antenna, Hardware_GENERAL, Electronic engineering, ComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMS, Electrical and Electronic Engineering, Antenna (radio), Omnidirectional antenna, business, Monopole antenna, Computer Science::Information Theory

Abstract

A new cognitive radio antenna system is presented and discussed in this study. The antenna system is composed of a wideband antenna that is used for channel sensing and a communicating antenna that is used for dynamic transmission over various frequencies. The communicating antenna is a software controlled reconfigurable antenna that can tune its frequency response by changing the height and angular position of its ground plane. This antenna is composed of a rectangular patch and three ground planes. Two ground planes are fixed while the third one moves and tilts based on the user's demand. The antenna's moving ground plane is controlled by an Arduino board and two linear actuators. The wideband sensing antenna is composed of a printed monopole patch that searches the spectrum for idle frequencies. A prototype of the complete antenna system is fabricated and tested. Both experimental and simulated results show good agreement.

Published

2014