Mohammed Kamal Ali is an RF and mm-wave chip design engineer seeking new opportunities. He has over 10 years of experience designing wireless transceivers and circuits using CMOS technologies down to 90nm node for applications such as 60GHz WLAN, 24GHz automotive radar, and K-band mixers. He holds a PhD from TU Berlin and has published over 20 papers on mm-wave circuit design and characterization.
Li-Fi is a wireless optical networking technology that uses light-emitting diodes (LEDs) for data transmission. It was invented by Professor Harald Haas and has faster transmission speeds than Wi-Fi. Li-Fi works by varying the intensity of light from an LED to transmit data and can support transmission speeds over 100Gbps. While promising for the future, Li-Fi currently faces challenges from light interference and an inability to pass through opaque objects. Potential applications of Li-Fi include use in traffic lights, hospitals, airplanes, and as free internet access points using street lamps.
This document discusses digital media sectors and defines analog and digital signals. It explains that an analog signal is a continuous wave that conveys information, while a digital signal consists of discrete electronic signals that are either a one or zero, positive or negative, which combine to form the signal. Examples of analog systems include vinyl records, old radios, and megaphones, while digital signals are used in modern electronics like computers and phones. Morse code is provided as an example of an early digital signal.
International Journal of Wireless Communications (IJWCS) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Wireless Communications.
Li-Fi is a wireless optical communication system that uses light-emitting diodes (LEDs) for transmission of data. It was first demonstrated by Professor Harald Hass at the University of Edinburgh in 2011. Li-Fi works by varying the rate at which LEDs flicker on and off, with higher rates representing 1s and lower rates representing 0s to transmit digital data. Key advantages of Li-Fi over Wi-Fi include higher speed, more available bandwidth, and more secure communication through an inability to penetrate walls.
A Review of different Routing Protocols for Ad Hoc Mobile Wireless NetworksIJEEE
In this paper we review basics of wireless communication its features, characteristic, fundamental ,applications etc along with its area of research , scope of improvement and prominent attributes.
Li-Fi is a wireless optical networking technology that uses light-emitting diodes (LEDs) for data transmission. It was introduced by Professor Harald Haas at the University of Edinburgh in 2011. Li-Fi works by transmitting data through illumination by controlling the state and rate of flashing of an LED light that varies faster than the human eye. It provides higher speed and more secure data transmission than traditional Wi-Fi and can be used in places where Wi-Fi is unavailable or restricted. While Li-Fi has advantages like high speed and security, it also has limitations such as an inability to pass through opaque objects and susceptibility to interference from other light sources.
The International Journal of Wireless Communications (IJWCS) is a bi-monthly peer-reviewed journal that publishes articles on wireless communications. The journal focuses on technical and practical aspects of wireless communications across areas such as 4G/5G cellular systems, wireless sensor networks, cognitive radio, and machine learning applications. Authors are encouraged to submit original research, projects, surveys, and case studies on topics related to wireless communications. The journal uses an online submission system and has deadlines for submitting, receiving notification on, and finalizing manuscripts for upcoming issues.
Li-Fi is a wireless optical networking technology that uses light-emitting diodes (LEDs) for data transmission. It was invented by Professor Harald Haas and has faster transmission speeds than Wi-Fi. Li-Fi works by varying the intensity of light from an LED to transmit data and can support transmission speeds over 100Gbps. While promising for the future, Li-Fi currently faces challenges from light interference and an inability to pass through opaque objects. Potential applications of Li-Fi include use in traffic lights, hospitals, airplanes, and as free internet access points using street lamps.
This document discusses digital media sectors and defines analog and digital signals. It explains that an analog signal is a continuous wave that conveys information, while a digital signal consists of discrete electronic signals that are either a one or zero, positive or negative, which combine to form the signal. Examples of analog systems include vinyl records, old radios, and megaphones, while digital signals are used in modern electronics like computers and phones. Morse code is provided as an example of an early digital signal.
International Journal of Wireless Communications (IJWCS) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Wireless Communications.
Li-Fi is a wireless optical communication system that uses light-emitting diodes (LEDs) for transmission of data. It was first demonstrated by Professor Harald Hass at the University of Edinburgh in 2011. Li-Fi works by varying the rate at which LEDs flicker on and off, with higher rates representing 1s and lower rates representing 0s to transmit digital data. Key advantages of Li-Fi over Wi-Fi include higher speed, more available bandwidth, and more secure communication through an inability to penetrate walls.
A Review of different Routing Protocols for Ad Hoc Mobile Wireless NetworksIJEEE
In this paper we review basics of wireless communication its features, characteristic, fundamental ,applications etc along with its area of research , scope of improvement and prominent attributes.
Li-Fi is a wireless optical networking technology that uses light-emitting diodes (LEDs) for data transmission. It was introduced by Professor Harald Haas at the University of Edinburgh in 2011. Li-Fi works by transmitting data through illumination by controlling the state and rate of flashing of an LED light that varies faster than the human eye. It provides higher speed and more secure data transmission than traditional Wi-Fi and can be used in places where Wi-Fi is unavailable or restricted. While Li-Fi has advantages like high speed and security, it also has limitations such as an inability to pass through opaque objects and susceptibility to interference from other light sources.
The International Journal of Wireless Communications (IJWCS) is a bi-monthly peer-reviewed journal that publishes articles on wireless communications. The journal focuses on technical and practical aspects of wireless communications across areas such as 4G/5G cellular systems, wireless sensor networks, cognitive radio, and machine learning applications. Authors are encouraged to submit original research, projects, surveys, and case studies on topics related to wireless communications. The journal uses an online submission system and has deadlines for submitting, receiving notification on, and finalizing manuscripts for upcoming issues.
Lu-an Liu has extensive experience in electronics engineering, signal processing, and sound and vibration. He has independently developed several machine-to-machine communication systems using mobile networks, ARM processors, and protocols like CANbus and Modbus to communicate with heat pumps. He is skilled in areas like electronic design, wireless communications, programming, and acoustic measurements and analyses. Liu holds a master's degree from KTH in Sound and Vibration and is currently working on his thesis.
On the Architecture and Design of Multi-Wavelength Passive Optical Arrayed Wa...IJERA Editor
Fiber to the premises (FTTP) technology has become an attractive solution in the last two decades to overcome many limitations appeared with the wireless and copper based technologies in access network. Most of FTTP deployments are based on Passive Optical Network (PON) technology. PONs have become so popular in the optics technology because of its growing reputation in not only providing high speed connectivity but also because of its immunity to EM interference, high security, long distance reach, low cost and low energy consumption. Arrayed Waveguide Grating (AWGs) are passive optical devices that have been widely deployed and implemented in FTTP and many other applications. AWGs can serve as multiplexers, de-multiplexers, filters, routers, and as add/drop devices in many communication systems and optical based applications. In this paper, the AWG PON device is analyzed and simulated using Rsoft simulation tool for the design of multi wavelength optical passive multiplexer and de-multiplexer.
5G for Museums, Galleries and Heritage - unlocking the full potentialKTN
UK5G Creative Industries Working Group in partnership with the National Gallery delivered an event entitled “5G for Museums, Galleries and Heritage – unlocking the full potential” to explore the wealth of opportunities offered by 5G to the Arts and Heritage sector.
The high-bandwidth low-latency technologies promised by 5G will likely radically disrupt the sector both in the way the content is delivered and received. Thanks to 5G, immersive experiences will become more seamless and available not only to a groups of people at the same time but also to remote visitors. 5G will also impact how museums, galleries and other venues operate.
Find out more here: https://ktn-uk.co.uk/events/expression-of-interest-5g-for-museums-galleries-and-heritage-unlocking-the-full-potential-london
This document provides an overview of a lecture on mobile communications. It introduces key concepts and applications of mobile technology. It then discusses the history of wireless communication from the 1800s to recent developments in 3G and 4G networks. Finally, it provides statistics on worldwide adoption of mobile phones over time.
The document summarizes research on using optical technologies to support personal area networks. It discusses trends driving the need for high-bandwidth mobile connectivity. The proposed solution is a fiber-to-the-wireless network (FTTWN) architecture that uses optical codes for transmission over a passive optical network to enable connectivity between fiber infrastructure and individual wireless devices in a personalized network. Key advantages of the approach are large bandwidth capacity of optical fibers and the use of optical codes to allow multiple access over the shared fiber infrastructure.
The document summarizes the consulting services and expertise of an RF/microwave engineering consultant, including:
- Design and analysis of components, sub-systems, boards and ICs from 1-100 GHz
- Problem solving, data analysis, and working with engineers and technicians
- Extensive experience with network analyzers, device modeling, packaging, and interconnect design
SEMI European Mems Summit 2016 - FlyerYann GUILLOU
The SEMI European MEMS Summit conference will take place on September 15-16, 2016 in Stuttgart, Germany, bringing together over 250 attendees from 21 countries in the MEMS industry for keynote speeches, panel discussions on technology, markets, IoT, automotive and more, as well as a sold out exhibition showcasing the latest from major MEMS companies like Bosch, STMicroelectronics, Qorvo and more.
The growing use of Unmanned Aerial Vehicles (UAVs) for various applications requires ubiquitous and reliable connectivity for safe control and data exchange between these devices and ground terminals. Depending on the application, UAV-mounted wireless equipment can either be an aerial user equipment (AUE) that co-exists with the terrestrial users, or it can be a part of wireless infrastructure providing a range of services to the ground users. For instance, AUE can be used for real-time search and rescue and Aerial Base Station (ABS) can enhance coverage, capacity, and energy efficiency of wireless networks. We will start with discussing the open challenges of communication with UAVs. To give answers to the posed questions, we will focus on the UAV communication basics, providing the channel modeling background and giving guidelines on how various channel models should be used. Next, theoretical, simulation- and measurement-based approaches to address the key challenges for AUE usage will be presented. Moreover, we will provide a comprehensive overview on how UAV-mounted equipment (e.g. ABS) can be used as apart of the communication network. Based on the theoretical analysis, we will show how various network parameters (for example coverage area of ABSs, power efficiency, or user localization error)can be optimized. Finally, we will discuss how to ensure the safe use of UAVs via various RF-based techniques for detecting the presence of UAVs in the airspace (including Machine Learning and Passive Coherent Location techniques).
This document is a resume for Bahaa Mahmoud Ibrahim Younis. It summarizes his career objective, skills, professional experience, education, training and achievements, publications, and references. His career objective is to find a challenging position where he can use his communication skills and knowledge. His professional experience includes working as a research assistant studying plasmonic photonic crystal fibers and as a demonstrator teaching communication courses. He has a bachelor's degree in electronics and communication from Mansoura University and a master's degree in electrical communication engineering from the same university.
A project report on wireless energy meter reading using x beeRobo India
Robo India presents A project report on Wireless Energy Meter Reading using X-Bee.
By this project we can see the readings of energy meter from a remote location using X-Bee. This project contains two parts. One is transmitter that is attached with the energy meter and second in Receiver. The transmitter reads the reading of energy meter and transmits them, on the other hand the receiver receives those reading and displays them on the LCD.
The project is made using AVR atmel Atmega 16 microcontroller. The project report also contains full programming and codding in the last.
we welcome your views and queries, we are found at-
website: www.roboindia.com
mail- info@roboindia.com
This document provides a summary of the experience and expertise of Steve K. Rockwell in RF/microwave/mm-wave design, including:
- Over 20 years of experience in defense, aerospace, commercial telecommunications, and semiconductor industries.
- Key accomplishments include developing prototype 60GHz multi-Gbps radio systems and integrating a 60GHz transceiver into a cell phone.
- Expertise in areas such as mm-wave circuit and system design, modeling, characterization, packaging, and measurement.
- Educational background includes a BSEE from Arizona State University and graduate courses in electrical engineering.
Dr. Hatem Yousry El-Sayed is seeking an innovative research or teaching position where he can apply his academic background and experience. He has a PhD in electronics and communications engineering from Ain Shams University in Egypt. His research interests include digital signal processing system design, cognitive radio networks, and spectrum sensing algorithms. He has taught courses in electronic circuits, communications systems, digital signal processing, VLSI design, and PLC programming.
AUDIO TRANSMISSION USING LIGHT FIDELITYIRJET Journal
This document discusses Li-Fi (Light Fidelity) technology for audio transmission using visible light communication. It begins with an abstract that introduces Li-Fi as the next generation network that can use light as a transmission medium. It then provides background on Li-Fi, including how it works and its advantages over Wi-Fi such as higher speed, security, and bandwidth. The document describes the hardware components needed for a Li-Fi audio transmission system and its working methodology. It discusses applications of Li-Fi and concludes that it can provide a cleaner, more secure wireless alternative to radio-based Wi-Fi networks.
Optical fiber is widely used for commercial communication due to its high bandwidth capability and ability to transmit data over long distances with minimal signal loss. It has applications in telecommunications, manufacturing, oil and gas, power utilities, and transportation. Key advantages include high speeds, reliability, security, and electrical isolation. While installation costs are high, optical fiber is crucial infrastructure for industries' network and data needs.
International Journal of Wireless Communications (IJWCS)ijfcst journal
The International Journal of Wireless Communications (IJWCS) is an open access journal that publishes articles on new developments in wireless communications. The journal covers technical and practical aspects of topics such as 4G/5G cellular systems, cognitive radio, wireless sensor networks, and machine learning applications for wireless networks. Authors are invited to submit original research papers and project reports before July 22, 2020 via the journal's online submission system. Papers will be reviewed and authors notified of acceptance by August 25, 2020.
Implementing Wireless Network For Computer Communication...Karen Gilchrist
This paper discusses implementing wireless networks for computer communication. It describes various wireless technologies including Wi-Fi, Bluetooth, WiMAX, mobile networks, and Li-Fi. It provides an overview of building a generic wireless network and discusses security risks faced by wireless networks. Strategies for mitigating these risks are presented. The paper also discusses how wireless networks can benefit education and training by increasing accessibility and reducing costs.
International Journal of Wireless Communications (IJWCS)ijfcst journal
International Journal of Wireless Communications (IJWCS) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Wireless Communications. The journal focuses on all technical and practical aspects of Wireless Communications. The goal of this journal is to bring together researchers and practitioners from academia and industry to focus on advanced wireless & mobile networking concepts and establishing new collaborations in these areas.
International Journal of Wireless Communications (IJWCS)ijfcst journal
International Journal of Wireless Communications (IJWCS) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Wireless Communications. The journal focuses on all technical and practical aspects of Wireless Communications. The goal of this journal is to bring together researchers and practitioners from academia and industry to focus on advanced wireless & mobile networking concepts and establishing new collaborations in these areas.
This document outlines a course on wireless mobile computer networks offered at the University of Jordan's Faculty of Engineering & Technology. The 3 credit, 16 week course will be taught by Dr. Anas N. Al-Rabadi and cover topics such as transmission fundamentals, wireless communication technologies, protocols, wireless networking, cellular networks, wireless LANs, wireless sensor networks, and mobile ad-hoc networks. Students will learn about analyzing and constructing modern wireless networks using hardware and software techniques through lectures, readings from three textbooks, class materials, and internet resources. Evaluation will be based on coursework, a midterm exam, and a final exam.
Lu-an Liu has extensive experience in electronics engineering, signal processing, and sound and vibration. He has independently developed several machine-to-machine communication systems using mobile networks, ARM processors, and protocols like CANbus and Modbus to communicate with heat pumps. He is skilled in areas like electronic design, wireless communications, programming, and acoustic measurements and analyses. Liu holds a master's degree from KTH in Sound and Vibration and is currently working on his thesis.
On the Architecture and Design of Multi-Wavelength Passive Optical Arrayed Wa...IJERA Editor
Fiber to the premises (FTTP) technology has become an attractive solution in the last two decades to overcome many limitations appeared with the wireless and copper based technologies in access network. Most of FTTP deployments are based on Passive Optical Network (PON) technology. PONs have become so popular in the optics technology because of its growing reputation in not only providing high speed connectivity but also because of its immunity to EM interference, high security, long distance reach, low cost and low energy consumption. Arrayed Waveguide Grating (AWGs) are passive optical devices that have been widely deployed and implemented in FTTP and many other applications. AWGs can serve as multiplexers, de-multiplexers, filters, routers, and as add/drop devices in many communication systems and optical based applications. In this paper, the AWG PON device is analyzed and simulated using Rsoft simulation tool for the design of multi wavelength optical passive multiplexer and de-multiplexer.
5G for Museums, Galleries and Heritage - unlocking the full potentialKTN
UK5G Creative Industries Working Group in partnership with the National Gallery delivered an event entitled “5G for Museums, Galleries and Heritage – unlocking the full potential” to explore the wealth of opportunities offered by 5G to the Arts and Heritage sector.
The high-bandwidth low-latency technologies promised by 5G will likely radically disrupt the sector both in the way the content is delivered and received. Thanks to 5G, immersive experiences will become more seamless and available not only to a groups of people at the same time but also to remote visitors. 5G will also impact how museums, galleries and other venues operate.
Find out more here: https://ktn-uk.co.uk/events/expression-of-interest-5g-for-museums-galleries-and-heritage-unlocking-the-full-potential-london
This document provides an overview of a lecture on mobile communications. It introduces key concepts and applications of mobile technology. It then discusses the history of wireless communication from the 1800s to recent developments in 3G and 4G networks. Finally, it provides statistics on worldwide adoption of mobile phones over time.
The document summarizes research on using optical technologies to support personal area networks. It discusses trends driving the need for high-bandwidth mobile connectivity. The proposed solution is a fiber-to-the-wireless network (FTTWN) architecture that uses optical codes for transmission over a passive optical network to enable connectivity between fiber infrastructure and individual wireless devices in a personalized network. Key advantages of the approach are large bandwidth capacity of optical fibers and the use of optical codes to allow multiple access over the shared fiber infrastructure.
The document summarizes the consulting services and expertise of an RF/microwave engineering consultant, including:
- Design and analysis of components, sub-systems, boards and ICs from 1-100 GHz
- Problem solving, data analysis, and working with engineers and technicians
- Extensive experience with network analyzers, device modeling, packaging, and interconnect design
SEMI European Mems Summit 2016 - FlyerYann GUILLOU
The SEMI European MEMS Summit conference will take place on September 15-16, 2016 in Stuttgart, Germany, bringing together over 250 attendees from 21 countries in the MEMS industry for keynote speeches, panel discussions on technology, markets, IoT, automotive and more, as well as a sold out exhibition showcasing the latest from major MEMS companies like Bosch, STMicroelectronics, Qorvo and more.
The growing use of Unmanned Aerial Vehicles (UAVs) for various applications requires ubiquitous and reliable connectivity for safe control and data exchange between these devices and ground terminals. Depending on the application, UAV-mounted wireless equipment can either be an aerial user equipment (AUE) that co-exists with the terrestrial users, or it can be a part of wireless infrastructure providing a range of services to the ground users. For instance, AUE can be used for real-time search and rescue and Aerial Base Station (ABS) can enhance coverage, capacity, and energy efficiency of wireless networks. We will start with discussing the open challenges of communication with UAVs. To give answers to the posed questions, we will focus on the UAV communication basics, providing the channel modeling background and giving guidelines on how various channel models should be used. Next, theoretical, simulation- and measurement-based approaches to address the key challenges for AUE usage will be presented. Moreover, we will provide a comprehensive overview on how UAV-mounted equipment (e.g. ABS) can be used as apart of the communication network. Based on the theoretical analysis, we will show how various network parameters (for example coverage area of ABSs, power efficiency, or user localization error)can be optimized. Finally, we will discuss how to ensure the safe use of UAVs via various RF-based techniques for detecting the presence of UAVs in the airspace (including Machine Learning and Passive Coherent Location techniques).
This document is a resume for Bahaa Mahmoud Ibrahim Younis. It summarizes his career objective, skills, professional experience, education, training and achievements, publications, and references. His career objective is to find a challenging position where he can use his communication skills and knowledge. His professional experience includes working as a research assistant studying plasmonic photonic crystal fibers and as a demonstrator teaching communication courses. He has a bachelor's degree in electronics and communication from Mansoura University and a master's degree in electrical communication engineering from the same university.
A project report on wireless energy meter reading using x beeRobo India
Robo India presents A project report on Wireless Energy Meter Reading using X-Bee.
By this project we can see the readings of energy meter from a remote location using X-Bee. This project contains two parts. One is transmitter that is attached with the energy meter and second in Receiver. The transmitter reads the reading of energy meter and transmits them, on the other hand the receiver receives those reading and displays them on the LCD.
The project is made using AVR atmel Atmega 16 microcontroller. The project report also contains full programming and codding in the last.
we welcome your views and queries, we are found at-
website: www.roboindia.com
mail- info@roboindia.com
This document provides a summary of the experience and expertise of Steve K. Rockwell in RF/microwave/mm-wave design, including:
- Over 20 years of experience in defense, aerospace, commercial telecommunications, and semiconductor industries.
- Key accomplishments include developing prototype 60GHz multi-Gbps radio systems and integrating a 60GHz transceiver into a cell phone.
- Expertise in areas such as mm-wave circuit and system design, modeling, characterization, packaging, and measurement.
- Educational background includes a BSEE from Arizona State University and graduate courses in electrical engineering.
Dr. Hatem Yousry El-Sayed is seeking an innovative research or teaching position where he can apply his academic background and experience. He has a PhD in electronics and communications engineering from Ain Shams University in Egypt. His research interests include digital signal processing system design, cognitive radio networks, and spectrum sensing algorithms. He has taught courses in electronic circuits, communications systems, digital signal processing, VLSI design, and PLC programming.
AUDIO TRANSMISSION USING LIGHT FIDELITYIRJET Journal
This document discusses Li-Fi (Light Fidelity) technology for audio transmission using visible light communication. It begins with an abstract that introduces Li-Fi as the next generation network that can use light as a transmission medium. It then provides background on Li-Fi, including how it works and its advantages over Wi-Fi such as higher speed, security, and bandwidth. The document describes the hardware components needed for a Li-Fi audio transmission system and its working methodology. It discusses applications of Li-Fi and concludes that it can provide a cleaner, more secure wireless alternative to radio-based Wi-Fi networks.
Optical fiber is widely used for commercial communication due to its high bandwidth capability and ability to transmit data over long distances with minimal signal loss. It has applications in telecommunications, manufacturing, oil and gas, power utilities, and transportation. Key advantages include high speeds, reliability, security, and electrical isolation. While installation costs are high, optical fiber is crucial infrastructure for industries' network and data needs.
International Journal of Wireless Communications (IJWCS)ijfcst journal
The International Journal of Wireless Communications (IJWCS) is an open access journal that publishes articles on new developments in wireless communications. The journal covers technical and practical aspects of topics such as 4G/5G cellular systems, cognitive radio, wireless sensor networks, and machine learning applications for wireless networks. Authors are invited to submit original research papers and project reports before July 22, 2020 via the journal's online submission system. Papers will be reviewed and authors notified of acceptance by August 25, 2020.
Implementing Wireless Network For Computer Communication...Karen Gilchrist
This paper discusses implementing wireless networks for computer communication. It describes various wireless technologies including Wi-Fi, Bluetooth, WiMAX, mobile networks, and Li-Fi. It provides an overview of building a generic wireless network and discusses security risks faced by wireless networks. Strategies for mitigating these risks are presented. The paper also discusses how wireless networks can benefit education and training by increasing accessibility and reducing costs.
International Journal of Wireless Communications (IJWCS)ijfcst journal
International Journal of Wireless Communications (IJWCS) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Wireless Communications. The journal focuses on all technical and practical aspects of Wireless Communications. The goal of this journal is to bring together researchers and practitioners from academia and industry to focus on advanced wireless & mobile networking concepts and establishing new collaborations in these areas.
International Journal of Wireless Communications (IJWCS)ijfcst journal
International Journal of Wireless Communications (IJWCS) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Wireless Communications. The journal focuses on all technical and practical aspects of Wireless Communications. The goal of this journal is to bring together researchers and practitioners from academia and industry to focus on advanced wireless & mobile networking concepts and establishing new collaborations in these areas.
This document outlines a course on wireless mobile computer networks offered at the University of Jordan's Faculty of Engineering & Technology. The 3 credit, 16 week course will be taught by Dr. Anas N. Al-Rabadi and cover topics such as transmission fundamentals, wireless communication technologies, protocols, wireless networking, cellular networks, wireless LANs, wireless sensor networks, and mobile ad-hoc networks. Students will learn about analyzing and constructing modern wireless networks using hardware and software techniques through lectures, readings from three textbooks, class materials, and internet resources. Evaluation will be based on coursework, a midterm exam, and a final exam.
1. Mohammed Kamal Ali ● Sewanstraße 173, 10319 Berlin ● Mobile: +49 176 2519 4060
Email: mka@mwt.ee.tu-berlin.de mkamal_eng@yahoo.com
SCURRICULUM VITAE
mm-Wave and RF chip design engineer
Name: Mohammed Kamal Ali
Date of Birth: 29 January 1980
Place of Birth: Fayoum, Egypt
Family Status: Married
Current Address: Frankfurterallee 233, 10365 Berlin
WORKING EXPERIENCE
2012 - 2014 Microwave Lab. at TU Berlin|
High data rate short range WLAN (60 GHz Transceiver)
According to the IEEE 802.15.3c standard
Rule: IQ modulator, IQ-demodulator including the IF amplifiers, and static frequency divider
(SFD) are designed, simulated, and tested
TSMC 90 nm CMOS technology is employed
2010 - 2014 Microwave Lab. at TU Berlin|
Automotive Radar with Localization (24 GHz Transceiver)
Continuous Wave Frequency Modulation (CWFM) Radar transceiver
Rule: VCOs, Miller frequency divider, miniaturized Wilkinson power divider are designed,
simulated, and tested
IBM 130 nm CMOS process is employed
2007 - 2009 Jelecom Egypt Ltd. |
FPGA design using VHDL codes for a CDMA transceiver.
2004 - 2007 Electronics Department at Cairo University |
Low-IF high image rejection mixers
Rule:
Noise and Linearity of the Gilbert-Cell and the passive mixers are modelled
Gilbert-Cell and the Passive mixers are utilized to design an image rejection receiver
The receivers are simulated utilizing the BSIM4 model of the 0.6 um devices
2001 - 2009 Communications and Electronics Department at Fayoum University |
Rule:
Demonstrator then Lecturer assistant
EDUCATION
2010 - 2014 Researcher at the Microwave engineering Laboratory, Technical University of Berlin,
Berlin, Germany. PhD degree is to be granted
2003 - 2007 Researcher at the Electronics and Communication Departement, Cairo University, M.Sc
degree granted
1996 - 2001 Student in the Electronics and Communication Departement, Cairo University, B.Sc degree
granted
COURSES AND WORKSHOPS
2013 Measurement techniques of RF circuits at TU Berlin, Germany
2. Mohammed Kamal Ali ● Sewanstraße 173, 10319 Berlin ● Mobile: +49 176 2519 4060
Email: mka@mwt.ee.tu-berlin.de mkamal_eng@yahoo.com
2012 EM Simulation of RF circuits at TU Dresden
2009 Proposal writing and Research planning at the German Academic exchange, Cairo
premises, Egypt
2008 Communication skills, presentation skills, strategic planning, and effective teaching at
Cairo University, Egypt
SKILLS
Measurements equipments: Network analyzers, Spectrum analyzers, Signal generators, Oscilloscopes,
Probing stations
Simulation tools: ADS, Cadence, TexEDA
EM simulation: Momentum, HFSS
Programming: Matlab, VHDL
Operating systems: Windows, Linux
Office programs and LATEX
Languages: Fluent in both English and German (written and spoken)
INTERESTS
Traveling, music, and reading history of religions
PUPLISHED WORK
Ali M.K.; Subramanian V.; Tao Zhang; Boeck G., "Design of Ka-band Miller divider in 130 nm CMOS," Radio-
Frequency Integration Technology (RFIT), 2011 IEEE International Symposium on, vol., no., pp.205,208, Nov. 30
2011-Dec. 2 2011.
Ali M.K.; Subramanian V.; Tao Zhang; Boeck G., "Performance comparison of differential K-band VCOs in 130
nm CMOS technology,"Microwave Conference (GeMiC), 2012 The 7th German, vol., no., pp.1,4, 12-14 March
2012.
Ali M.K.; Hamidian A.; Ran Shu; Malignaggi A.; Boeck G., "45 GHz low power static frequency divider in 90 nm
CMOS,"Radio-Frequency Integration Technology (RFIT), 2012 IEEE International Symposium on, vol., no.,
pp.65,67, 21-23 Nov. 2012.
Ali M.K.; Hamidian A.; Ran Shu; Malignaggi A.; Boeck G., "Utilizing static frequency divider for quadrature signal
generation in 90 nm CMOS,"Accepted to be published in Microwave Conference (GeMiC). 2014.
Ali, M.K.; Hamidian, A.; Malignaggi, A.; Arnous, M.T.; Boeck, G., "Low flicker noise high linearity direct
conversion mixer for K-band applications in a 90 nm CMOS technology," Microwaves, Radar, and Wireless
Communication (MIKON), 2014 20th International Conference on , vol., no., pp.1,4, 16-18 June 2014.
Ali M.K.; Hamidian A ; Boeck G., “IQ-Demodulator for the IEEE 802.15.3c Standard in the 90 nm CMOS
technology” , published in EuMC 2014.
Malignaggi A., Hamidian A., Ran Shu, Ali M.K., and Boeck G., “Analytical Study and Performance
Comparison of mm-wave CMOS LNAs,” Microwave Integrated Circuits Conference (EuMIC), European,
pp. 260,263, Mar. 2013.
Hamidian A., Malignaggi A., Shu R., Ali M.K., and Boeck G., “Multigigabit 60 GHz OOK Front-End in 90 nm
CMOS,” Silicon Monolithic Integrated Circuits in RF Systems (SiRF), 2013 IEEE 13th Topical Meeting on,
pp. 96,98, Jan. 2013.
Shu R., Subramanian V., Hamidian A., Malignaggi, A., Ali M.K., and Boeck G., “A 36-49 GHz Injection-
Locked Frequency Divider with Transformer-Based Dual-Path Injection,” Silicon Monolithic Integrated
Circuits in RF Systems (SiRF), 2013 IEEE 13th Topical Meeting on, pp. 114,116, Jan. 2013.
Hamidian A., Malignaggi A., Shu, R., Ali M.K., and Boeck G., “A Wideband Gilbert Cell Up-Converter in 90
nm CMOS for 60 GHz Application,” Radio-Frequency Integration Technology (RFIT), 2012 IEEE
International Symposium on, pp. 50,52, Nov. 2012.
Shu R., Hamidian A., Malignaggi, A., Ali, M.K., and Boeck G., “A 40 GHz CMOS VCO with Resonated
Negative-Conductance Cell,” Radio-Frequency Integration Technology (RFIT), 2012 IEEE International
Symposium on, pp. 77-79, Nov. 2012.
3. Mohammed Kamal Ali ● Sewanstraße 173, 10319 Berlin ● Mobile: +49 176 2519 4060
Email: mka@mwt.ee.tu-berlin.de mkamal_eng@yahoo.com
Malignaggi A., Hamidian A., Ran Shu, Ali M.K., Kravets A., and Boeck G., “60 GHz LNAs in 90 nm CMOS
Technology,” Signals, Systems, and Electronics (ISSSE), 2012 International Symposium on, pp. 1,4, Oct.
2012.
Tao Zhang, Subramanian V., Ali M.K., and Boeck G., “Integrated K-Band CMOS Passive Mixers Utilizing
Balun and Polyphase Filters,” Radio-Frequency Integration Technology (RFIT), 2011 IEEE International
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REFERENCES
Dr. Chafik Meliani | Team Leader
Circuit Design/mm-wave Wireless
IHP
E-Mail: meliani@ihp-microelectronics.com
Website: www.ihp-microelectronics.com
Tel.: +49 (335) 5625-696
Fax: +49 (335) 5625-433
Dr. Ahmed Sayed | Furchung und
Entwicklung, HF Abteilung
Novero
E-Mail: ahmed.sayed@novero.com
Website: www.novero.com
Tel.: +49 33 77 316 138
Fax.: +49 33 77 316 134
Berlin, 15.12.2014