I’m Shaya. I’m here to share my experience with Rohini college of engineering and technology, the best engineering college in Kanyakumari district.

I am from Manipur and I joined Rohini college of engineering and technology in Kanyakumari district as per the suggestion made by my neighbor.From the first impression I understood why he suggested me and I should say it is the best engineering college in Kanyakumari district.

I joined for Electronics and communication engineering. It is a 4-year program focused on technologies in critical areas such as telecommunications, electricity and electronics, while promoting the development of the skills required to combine hardware and software components. The course is divided into a total of eight semesters, two semesters per year. Both practical and theory exams are held at the end of each year. The curriculum provides students with a solid base in the foundations of electronics and communications engineering through classes such as Analog & Digital Communications, Signals and Structures, Modern Logic & Circuits, Coding, etc.

The Rohini college of engineering and technology has an a great infrastructure. Here we can learn a lot. Other than studies we can learn about other activities also. I preferred this college because of its good teaching and placements. But after entering this college I learned a lot. My personality is changed after coming to college. I learned to make proper time management.

 In my course, we have two semesters for the internship program. So we can make a project in internship. It will be very useful to apply for jobs. So while we apply to any company they might know that we have attended internship and have done many projects. Faculties at RCET college are so helpful. Other than studies they motivate us to read novels and to do other activities. They also suggest movies to watch and also friendly.

We can make internship off-campus. So that we will make some projects. It is very useful while applying for jobs. We can choose any domains and we can search through online platforms like LinkedIn (for off campus).

Most of students at RCET, the best engineering college in kanyakumari district, got placed in the campus interviews. From the 6 and 7 semesters, the students can eligible for campus placements. Most of the MNCs like Infosys, Accenture, TCS and so many companies visit our campus.

Hostel fees are also normal. But we are provided with the best food.We also have scholarships that help many students. And many companies will come and we can attend the companies and get placed.

The campus was full of green. It was a good atmosphere. On our campus, they will conduct fest in odd sem and tech-fest in even sem. There we can enjoy ourselves a lot and also we can volunteer for the programs. And we have a technical fest at RCET where we conduct some workshops and events. And we have so many clubs for dance, music, drama and social activities. In our library, we have all books related to all department. It is very useful to students.

There are so many blocks for hostels. Four members can stay in a room. We have a cot, chair, table and we have all the necessities. If we have any electrical problems, we can inform our RC so that they will clear the problem the next day. The food provides in the mess also good. They will provide sweets every day. And provide ice cream in a week. The menu was also non-repeatable.All these makes RCET the best engineering college in kanyakumari district. 

What is Electrical Engineering?

This field of engineering focuses on the generation, transmission and distribution of electricity and the application of its concepts to functional devices such as engines, batteries, control systems, electrical appliances etc. Major electrical engineering projects include:

Manufacturing and Installation of Electrical Appliances after a complete calculation.

Inspection of electrical equipment to ensure that it meets the required standards

Understanding consumer complaints, diagnosing problems and coming up with better solutions

Reasons to study electrical engineering as follows:

Wanted - Whether you are an experienced doctor or a newly educated doctor, finding a job in the electrical engineering market is easy. As technology grows faster, the demand for electrical engineers has grown exponentially.

Opportunities are available worldwide - Almost every part of the world needs and needs electrical engineers. There are many overseas companies that need and are open to hiring foreign electrical engineers. If you wish to do electrical engineering work overseas, you will be surprised to find a huge number of opportunities available.

Advances in the technology of the future - Electrical engineering is the beginning of innovation in many industries including healthcare, transportation, robots, and construction. This sector forms the backbone of technological innovation. Studying electrical engineering will help students impact the lives of millions of people around the world.

Many engineering undergraduate degrees will also include electronic engineering materials. Overall, you will develop analytical, technical and engineering skills. Best colleges in kerala offer B. Tech degrees  in Electrical Engineering, to develop a large number of trained engineers.

First-year courses are usually combined in all engineering degrees usually including mathematics, communications engineering and signage, engineering goals, systems and communications as well as laboratory and presentation skills. There will also be modules related to electrical engineering such as circuits and fields, computer engineering, real-time programs, analog electronics, embedded software projects, and engineering programs.

In the second year, you will probably learn data analysis, probability and numbers, signal processing and control engineering, communications, analog system engineering, digital system design and implementation, power supply, software engineering design, electrical engineering among others, mechanical management and other engineering. .

Typical end-of-year modules may include modeling and control systems, electromagnetism, power engineering, electrical equipment, automotive and generator modification, field waves and sticks, electronic design, digital design, web-based computer, digital and video communication system microelectronics.

The  engineering colleges in kerala  have a reputation for creating excellent degrees with international standards.

Best Engineering College in Rajasthan

Category :

Best Mechanical Engineering College in Jaipur Rajasthan

Mechanical Engineering is one of the core branches of engineering discipline having major sub branches like design, thermal, automation, manufacturing engineering, and energy engineering. It is arguably the broadest of main engineering branch. Technologies like CAD, CAE, CIM, and PLM etc have been the driving factors for evaluation of product life cycle by revolutionizing, conceptualization, design detailing analysis and manufacturing procedure. All the workshops and laboratories are equipped with quality machines and equipments. Complete safety is ensured while the students work or learn on the machine and equipments. All labs are quite spacious, properly ventilated and comfortable for learning and performing experiments. Not more than two/three students are allowed to work on each machine at a time. The Mechanical students are also engaged to learn various design software in collaboration with institutes/organization of repute in the college campus itself.

Best Civil Engineering College in Jaipur Rajasthan

The Department of Civil Engineering offers B .Tech. in Civil Engineering with current sanctioned intake of 180.

The Civil Engineering Department at Vivekananda Institute of Technology was established in the year 2008. The department is flourishing since then, with a Vision to achieve excellence in education by keeping pace with rapidly changing technologies and thereby, bridging the gap between academics and field practice in the area of civil engineering. Experienced faculty from field and academics forms the thrust of the department. Practical knowledge in students is being enhanced through well-equipped laboratories in various subjects such as Concrete Technology, Structural Engineering, Geotechnical Engineering, Road & Building Materials Testing, Surveying, Hydraulics, etc. The theoretical knowledge of students is further supplemented by arranging industrial visits and invited lectures by experts from industry and academia. In addition, the department also participates towards fulfillment of social responsibilities by providing consultancy services in the area of testing and design such as, structural design, topographical survey, concrete mix designs, water supply & waste management works, road intersection designs and many more.

Best Electrical Engineering College in Jaipur Rajasthan

The Department of Electrical Engineering at Vivekananda Institute of Technology, (Jaipur) is distinctly focused towards integrating academics with cutting edge technology in the field of electrical engineering. All efforts are subtly harnessed with the aim of preparing the budding engineers to face the challenging dimensions of technical excellence. The Department puts in consistent efforts for field exposure to students through various research- oriented projects taken up for meeting the industry demands. The Department offers a perfect blend of electrical, electronics and computer related courses to help students pursue a professional career or higher studies. We invite you to join us to put in best efforts for society.

The Department of Electrical Engineering at Vivekananda Institute of Technology, (Jaipur) offers a unique amalgamation of electrical, electronics and computer related courses enabling the students to pursue a professional career or higher studies in any of these broad areas. Since its inception, the department has touched new benchmarks in terms of quality education, research & development and industry tie-ups.

The infrastructure and lab facilities are upgraded from time to time to provide opportunities to students to learn and innovate and keep them in sync with the industry advancements. Regular seminars, conferences and guest lectures are organized to establish ties with the industry and encourage and promote research activities in order to integrate them with the teaching-learning process.

Best Computer Science Engineering College in Jaipur Rajasthan

The Department of Computer Science & Engineering at Vivekananda Institute of Technology was established in the year 2008. The Department is working hard with a Vision to achieve excellence in education by keeping pace with rapidly changing technologies and thereby, bridging the gap between academics and software companies in the field of computing. Experienced faculty from software companies and academics are providing services to the department. Practical knowledge in students is being enhanced through well-equipped laboratories. The theoretical knowledge of students is further supplemented by arranging industrial visits and invited lectures by experts in their respective field.In addition, the department also participates towards self-learning activities by organizing various technical events and workshops.

Best Electronics and Communication Engineering College in Jaipur Rajasthan

The Department has always been on a high growth path to keep pace with the ever increasing importance of the major disciplines of study and current technology trends.

The Department has a fine blend of renowned as well as young faculty members and is involved in providing quality education. The undergraduate curricular structure and syllabi are updated regularly to reflect recent technological developments and industrial and nationals goals. The laboratories are well equipped, organized in such a way that student’s academics initiates with basics of electronics and are modernized to reflect the rapid changes in technology. The curriculum in electronics and communication engineering lays greater emphasis on deep understanding of fundamental principles and state of the art knowledge of electronic devices & circuits, computer architecture & microprocessors, VLSI & embedded systems, electromagnetic field theory, analog and digital communication, digital signal processing, microwave & broadband communications.

Why should you choose Electronics and Communication Engineering Branch!

Electronics and Communication engineering is one of the most popular engineering branches out there. Among the Indian engineering aspirants, this particular discipline has been a popular choice for quite some time. With the evolution of the computer age, electronics & communication has transformed into a field that is inevitable, required by almost all the industries. Electronics is now part of our everyday life, from the mobile phones to televisions, computers and even the high-end advanced satellites that are helping us to lead a smooth life. Even electronics and communication engineering is the major driving force for the present day Information Technology revolution. Electronics and Communication Engineering has also penetrated into other areas like healthcare, instrumentation, automation, remote sensing, signal processing etc. So students pursuing electronics and communication engineering have a lot of scope in varied industries.

 Career outlook for ECE students!

ECE students can develop an exciting career in industries like consumer electronics manufacturing organization, Telecommunication & IT industries, Health care equipment manufacturing, Mobile communication (2G, 3G, and 4G), Internet technologies, Power Electronics, and other industries like steel, petroleum and chemical industry etc. Graduates with Best Electronics and Communication Engineering College also have lots of opportunities in Government and private companies in the areas of design, manufacture, installation, operation, and maintenance of electronics equipment and systems. With the advent of latest technological innovations, new opportunities came into existence for electronics & communication engineers. The latest technologies include self-driving cars, autonomous drone logistics, robotics, automation in industries, smart energy systems etc. But getting acquainted with these industries will not be easy as they demand engineers who are more hands-on with the latest technologies.

Salary prospects in ECE!

The job market for ECE is on demand and industries are looking for qualified engineers who can assist them on latest technologies. With recent technological advancements, the scope for the electronics engineers is on the rise. However, according to payscale.com the average annual salary of these professional includes Rs. 312,408 per year. Electronics students with skills in robotics, automation technologies, renewable energies, Internet of Things (IoT), mechatronics engineering concepts add more value to their average pay scale. The aim of students pursuing electronics engineering is to get a highly paid job, so improving skill sets will definitely impact their pay scale a lot.

 Scope in overseas!

 With the recent advancements in technologies, most of the industries are beginning to adopt robotics, automation technologies, smart energy systems, Internet of Things (IoT) into their process. And a lot of these industries are established in Gulf countries, Germany, China, Canada etc. So students pursuing in top engineering colleges have lot of job opportunities available, this is mainly because of the presence of various manufacturing firms outside India. Electronics Engineers who are specialized in Control & Power Systems can find good opportunities in Japan, Germany, US & Korea. There is also a variety of job roles available in multi-disciplinary streams which an electronics engineer can take up.

Major technologies in which an ECE engineer can work on!

Analog and Radio Frequency Circuits: Without these cell phones, Wi-Fi, television will cease to     exist. A lot of industries are established to meet the consumer demands     and in the process, they opened up lot of job opportunities for     electronics engineers.

Communication & Signal Processing: This particular technology finds its application in     transmission, storage and analysis of information signals.

Computer & Digital Systems: All the industries are able to advance technologically at a     faster pace than before with the help of computers. These digital systems     are everywhere from the smart watches to the mars rovers.

Networking: With the     boom on the internet, we are experiencing 3G, 4G services which help the     organizations and industries to easily collaborate with people. There is a     lot of scope for engineers who want to work in this technology.

Computer vision & Image processing: These technologies are helping computers in the areas like     medical, surveying, photogrammetry etc. For instance, now we have medical     devices that can analyze data to not only display images but identify     diseases too with the help of magneto-resonance imaging technology.

Control systems & Robotics: With the advancement in the technologies lately more and     more industries are adopting automation and robots into their operations     to improve their efficiency. And a lot more industries are expected to     adopt these technologies in the coming years.

Remote Sensing:     Communication via radio waves is essential for mobile devices, radios, and     all the devices that are connected to the internet. From mapping to     navigation, remote sensing plays vital role in various technologies.

Nanotechnology: The more     efficient solar cells, faster transistors, tracking chips and microscopic     sensors that we see today are the products of nanotechnology. Lot of     industries is adapting this technology to make their products smaller and     more efficient.

Sustainable Energy & Power systems: Now industries are investing lots of their money and time to     develop more efficient solar cells, windmills, systems that can generate     power from tides etc. This technology offers wide range of job     opportunities for electronics engineers.

Skills that an ECE student needs to develop to improve job prospects!

If you are an ECE student, here are some of the skills and areas that you need to concentrate to improve your job prospects,

Computer proficiency is a must these days; try to get     acquainted with some of the industrial grade software.

Develop your communication and interpersonal skills

Develop more practical skills and get hands-on experience on     theoretical concepts

Get exposed to current industrial methodologies as much as     possible

Stay updated with the latest technologies by developing     projects on them

Do additional certified training programs to build your     profile

Take additional responsibilities in your college to showcase     your managerial skills

Develop your leadership and team working abilities

 Prepare yourself for these opportunities!

So the scope for electronics engineers in the coming years is not going to come down, but what will be the most challenging criteria is the skill level of engineers that the industries expect. At graduation time you have to choose best engineering college because first job is always crucial for career growth. With more technological advancements, industries of now are demanding engineers who are more hands-on and can assist immediately in their process without needing to spend time & resource on training. To improve your job prospects you need to gain more practical skills in addition to your curriculum. While it is normal that the colleges don't have the right infrastructure and platform to support you in learning advanced and trending technologies, you should be on the lookout for other opportunities. For this, the best way to get skilled is to do learning by doing projects. When you learn and build projects you will not only learn the technical concepts but also get acquainted with the technology and develop a better understanding of them. You can attend any hands-on workshops or do some project-based courses to kick-start your learning of advanced technologies.

 Article Source: https://medium.com/@vitjaipur/scopes-of-electronics-and-communication-engineering-deb45704ff92

Electronics and Communication Engineers Scope & Opportunities

An Introduction

Electronics and Communication Engineering, is one of the broad engineering fields, which involves the transmission of information across channels like coax cable or optical fibres. It also deals with designing of equipment’s such as routers, switches, fibre optics and electronic switching systems. In a nutshell, this branch of engineering deals with electronic devices and software interfaces.

Electronics and Communication engineering is one of the most popular engineering branches out there. Among the Indian engineering aspirants, this particular discipline has been a popular choice for quite some time. With the evolution of the computer age, electronics & communication has transformed into a field that is inevitable, required by almost all the industries.

Electronics is now part of our everyday life, from the mobile phones to televisions, computers and even the high-end advanced satellites that are helping us to lead a smooth life. Even electronics and communication engineering is the major driving force for the present day Information Technology revolution.

Electronics and Communication Engineering has also penetrated into other areas like healthcare, instrumentation, automation, remote sensing, signal processing etc.

Fields for ECE Engineering:

• Electronics Circuit Design

• Signal processing

• Wireless Communication

• Optical Communication

• Robotics

• Embedded Systems

• Analog electronics

• Digital electronics

• Telecommunications

• Power Electronics

• Consumer Electronics

• Solid State Physics

• Control systems

• VLSI

• Defense

• Nanotechnology

• Mobile Companies

Top Companies for ECE Branch:

• Texas Instruments

• Intel

• AMD

• CISCO

• IBM

• Samsung Electronics

• Sony

• Toshiba

• Philips Semiconductors

• Nokia

• Nvdia

• HP

• LG Electronics

• Bharat Heavy Electrical's Limited (BHEL)

• Electronics Corporation of India Limited (ECIL)

• National Thermal Power Corporation (NTPC)

• Wipro

• HCL

• ISRO

• SYNTEL

• WIPRO

Some job titles:

• Service Engineer

• Software Analyst

• Technical Director

• Field Test Engineer

• Senior Sales Manager

• Network Planning Engineer

• Customer Support Engineer

• Electronics and Communications Consultant

• Research & Development Software Engineer

Salary Range

The average salary of an Electronics and Communication degree holder is between INR 3.5 lakh and INR 4.5 lakh per annum. Fresher candidates usually get a starting salary of INR 20,000 to INR 30,000 per month depending upon their interview performance and knowledge. 

What are the skills that an ECE student needs to develop to improve job prospects?

If you are an ECE student, here are some of the skills and areas that you need to concentrate to improve your job prospects,

• Computer proficiency is a must these days;

• Develop your communication and interpersonal skills

• Develop more practical skills and get hands-on experience on theoretical            concepts

• Get exposed to current industrial methodologies as much as possible

• Stay updated with the latest technologies by developing projects on them

• Do additional certified training programs to build your profile

• Take additional responsibilities in your college to showcase your                          managerial skills

• Develop your leadership and team working abilities

• Also studying with an institute of prestige do matter.

Prepare yourself for these opportunities?

So the scope for electronics engineers in the coming years is not going to come down, but what will be the most challenging criteria is the skill level of engineers that the industries expect. With more technological advancements, industries of now are demanding engineers who are more hands-on and can assist immediately in their process without needing to spend time & resource on training. And to win the race among the others in competition you not only must thrive hard to get best skill in the branch of Electronics and Communication Engineering but also need to improve your skills with English communication and the leadership qualities in you. For an overall growth and nurture you must be choosing a better institute, among the best engineering colleges or you may find the top engineering college near you. To the students looking around to take admissions in Engineering in 2019, Rajasthan Institute of Engineering and Technology (RIET, Jaipur) has offered a wide range of courses with “Campus Recruitment Training” programs and likewise to ensure students get the best opportunities in their life.

Digital to Analog Signals Assignment Help

Digital-to-Analog conversion is a process in which signals having a few (usually two) defined levels or states (digital) are converted into signals having a theoretically infinite number of states (analog).  A Digital-to-Analog converter is a function that converts digital data into an analog. Computernetworkassignmenthelp.com imparts our online Assignment service on reasonable prices. Our Professionals are Master or PhD degree holders in the field of Digital-to-Analog assignment and homework from top ranked institutions, universities and colleges with a year of experience in imparting their services in the field of Computer. We at Computernetworkassignmenthelp.com have a well versed and qualified staff.

Fascinated by electronics and communications engineering? Know more in this blog.

Some of the best colleges in India providing Electronics and Communications Engineering are.

SRM University- Bangalore REVA University- Bangalore PES University- Bangalore RAMAIAH Institute Of Technology- Bangalore MVJ College Of Engineering- Bangalore CAMBRIDGE Institute of Technology- Bangalore ATRIA Institute Of Technology- Bangalore HKBK College Of Engineering- Bangalore

These colleges will be taking part in an education event in Tirupati, Anantapur, and Vijayawada this year, to help students if you are in and around Tirupati, you don’t want to miss this event. 

As this event is being conducted for the welfare of the students, the entry is absolutely FREE.

Register now for ABN Vidhya Jyothi by clicking on the link below:-

http://www.vidhyajyothi.in/

Or you can register by calling

89706 36149, 97423 45039

Electronic communications engineering is the utilization of science and math applied to practical problems in the field of communications. Electronic communications engineers engage in research, design, development, and testing of the electronic equipment used in various communications systems. It is due to electrical engineers that we enjoy such modern communication devices as cellular telephones, radios, and television.

Why Electronics and Communication Engineering Branch?

Communication is a thing without which we cannot live and electronics is an integral part of our life, hence electronics and communication branch shows a huge scope. In present as well as in future, right from local wristwatches to washing machines, refrigerators to huge turbines, marine ships, trains, airplanes are electronicist and handled only based on electronics, you can find a person without kerchief but not with cellphones, which belongs to communication’s progress in these years.

Scope of Electronics and Communication Engineering

Studying electronics and communication engineering is the dream of every second aspirant due to a number of reasons – growth, job opportunities, salary range and continuous industry growth.  The major driving force for the present day Information Technology revolution is the development in Electronics Engineering. The advancements in microelectronics, satellite and optical fiber technology, analog and digital in communication techniques have resulted in developing complex electronic devices, circuits and equipment are capable of implementing fast and efficient telecommunication systems. Real-time transfer of audio and video signals is now possible with recent trends in broadband technologies. Penetration of electronics has now revolutionized other areas like healthcare, instrumentation, automation, remote sensing, signal processing etc. the basic principles and performance of electronic devices and circuits are introduced in the course. Design and analysis of different analog and digital circuits are considered in detail.

Different analog and digital modulation techniques used for communication, equipment’s and systems involved in wireless communications, satellite and optical communication technologies, computer communication and networking, design and development of microelectronic circuits for computation and processing, components and systems for electronic instrumentation and control etc,. form major content of the course.

Career option in Electronics and Communication Engineering

Professionals may work in nearly every industry such as commercial, industrial, military or scientific companies. Job opportunities are available in both software and electronics companies. One may also enter into research and development. Candidates have ample opportunities in this field. Specialists can work in both private and public firms. A degree in this field develops candidate’s analytical and programming skills, which makes you compatible with even software companies. Upon completion of the degree, candidates can choose to work in consumer electronics, electricity generation and distribution, transportation, aviation and avionics, computer applications, radio and television, telecommunications, manufacturing and offshore industries. Electronics and Communication Engineers are acquired by top recruiters (both private and government) like DMRC, Siemens, Motorola, Intel, Texas Instruments, BEL, ISRO, DRDO, Accenture, Wipro, HCL Technologies, Nvidia, Samsung, Tech Mahindra, Infosys, TCS, Conexant, MTNL, AIR, BSNL, Indian Airforce, Indian Navy, Railways, Bharat Electronics Ltd and Flextronics and Philips Electronics.Higher Education Opportunities for Electronics and Communication Students There is a lot of scope for students doing M.S or M.Tech in the field of electronics&communication engineering. Having masters will certainly improve your career prospects and help you get hired by top MNC’s. Governments across the globe are spending millions of dollars in this field for research and development. So, the scope for doing Ph.D. in these fields is a risk worth taking. You will get scholarships and financial aid to do Ph.D. from various government and nongovernment organizations. If you planning to do MS or Ph.D. programs in the US, you had to go through GRE and TOEFL exams. For M.Tech, you should score high in GATE exams.

Research opportunity The major goal of the Department of Electronics and Communication Engineering Colleges in Noida is to produce highly knowledgeable, competent and resourceful young engineers who can perform well in a wide variety of job profiles. To achieve this, the curriculum provides a strong foundation in both the analytic and technological aspects of E&C Engineering. It also provides ample opportunities for students to work on mini-projects, develop communication skills, explore internship opportunities in industry and world-class universities and take part in national and international design contests. The Department offers an Under Graduate program in Electronics and Communication Engineering, a PG program in VLSI design and electronics&communication engineering colleges ( ECE) which provide a platform for bright graduates and postgraduates to conduct research in state-of-the-art technologies. The Department is also a recognized center of E-Yantra, Embedded and Robotics Lab Sponsored by MHRD Government of India under the National Mission on Education through ICT program The lab focuses on latest projects and research in the area of Robotics and embedded systems. It is a Cumulative effort by ECE, EE, CS, IT and ME department for active learning and hands-on experience for those students having a keen interest in the field of Robotics. The department has been actively involved in several quality enhancement projects. In recent years, the department has embarked on R&D projects funded by central agencies such as MHRD, DIT, Govt. of India and private industries.  In addition, the department is involved in consultancy services also.

New Innovation and Technology 1. Connectivity to enable the trusted digital enterprise The manufacturing industry is on the cusp of the 4th wave of transformation that holds the promise of a step change in productivity. Industrial IoT business models are being defined with increased flexibility, co-operative human-machine interaction and the use of data analytics to identify trends and dynamic system relationships that were previously hidden or inaccessible. 2. Bringing LED solutions to market Although it’s 15 years since LED lighting made its debut, take-up is accelerating across all areas of lighting, helped by its lower power consumption, longer lifespan, increased robustness and faster switching capabilities. 3. An eye for detail is needed when choosing the display technology for your next application A color display is hard to beat in any application and continued price erosion means it is becoming commercially viable to use graphical color displays in a wider range of applications. 4. Powerful telescopes bring us closer to the Big Bang Humankind has always wondered what secrets the universe was hiding in its starry depths and striven to understand how we fit into the bigger picture. This curiosity is still strong, as demonstrated by the number of powerful telescopes that have either been built recently or are under construction. 5. Is industry ready for 5G? just less than a month ago, the Chancellor, Philip Hammond, used his budget speech to make a case for 5G, the next-generation mobile technology and promised to invest £16million in a series of trials and to support research into the development of technology to underpin its deployment. 6. Revolutionising networking technology The networking world has largely been defined by the development of fixed function chips. While these devices have been one of the means by which data rates have increased, this has been achieved at the expense of configurability. 7. The choices involved in adding IP support to embedded systems The tentacles of the internet are reaching further into the domain of deeply embedded systems that used, at most, to be attached to simple field buses. Although the internet may stop short of ‘smart’ light bulbs that use Zigbee or Bluetooth to communicate, more organizations are looking at supporting the Internet Protocol (IP) directly in sensor nodes and smart actuators. 8. Track sure sensor system to transform rail networks Monitoring the rail network is a costly and time-consuming endeavor, but the University of Huddersfield’s Institute of Railway Research (IRR) has developed a new sensor system that could transform the way in which networks are maintained by turning rail vehicles into track monitors. For more information about

Heterodyne is an improvisational project; its co-founders and core performers are Maria Shesiuk (Moog and processed vocalizations) and T. A. Zook (NS Design Omni Bass, strung as a basscello). Although it is essentially a duo, when complex schedules permit, it  performs with Patrick Whitehead on quarter-tone flügelhorn and trumpet; Bob Boilen on ARP synthesizer; Doug Kallmeyer on bass and synthesizer; Jerry Busher on drums; Sarah Hughes on sax; Leah Gage on drums; Sam Lohman on drums; Amanda Huron on drums; and Dan Gutstein, spoken word. 

Heterodyne closed at the January 13, 2019 Susan Mumford Memorial at the 9:30 Club.  The performance is posted in Volume XII of the project's album (https://goo.gl/g69n6W); the individual URLs are goo.gl/jxDM2F (stereo) and goo.gl/xhxVPU (binaural).  Heterodyne recorded and posted all of its performances for free download:  https://heterodyne-performances.tumblr.com/.  Heartfelt thanks to all for the support that we've received from our collaborators and audiences in the course of our 31 performances since August 2017!

Free downloads of Heterodyne’s sessions and performances:

- Volume I:  https://goo.gl/SK7Hqz

- Volume II:  https://goo.gl/zM3Y2R

- Volume III:  https://goo.gl/SRTZqD

- Volume IV:  https://goo.gl/V9tbkN

- Volume V:  https://goo.gl/pSjQoS

- Volume VI:  https://goo.gl/7L84Ac

- Volume VII:  https://goo.gl/Sx6sVh

- Volume VIII:  https://goo.gl/yJa1Te

- Volume IX:  https://goo.gl/bLnNf4

- Volume X:  https://goo.gl/WkMDPJ

- Volume XI: https://goo.gl/yks5Q1

- Volume XII:  https://goo.gl/g69n6W

Video of August 26, 2018 performance by Rebecca Zook (https://www.facebook.com/rebeccazookmusic/; https://www.rebeccazookmusic.com/):  https://youtu.be/HKvZ_JXRaOA

Heterodyne + the Lost Civilizations experimental music project (http://lost-civilizations.tumblr.com/):  https://goo.gl/gtMCe2

Solo basscello performance by co-founder T. A. Zook:  https://goo.gl/mH5VT4 . 

Heterodyne’s spoken word artist Dan Gutstein has posted insightful commentary on the project; one of the project’s collaborators (Sarah Hughes); and Joy on Fire, the band with whom Heterodyne most frequently shares the bill:  

-https://dangutstein.blogspot.com/2018/01/microphone-mayhem-my-two-months-as.html

-https://dangutstein.blogspot.com/2018/01/the-sarah-huhges-sing-song-trio.html

-https://dangutstein.blogspot.com/2018/01/joy-on-fire-invent-blurry-bop.html

Heterodyne was featured in the Washington Post’s August 26, 2018 “Going Out Guide” (https://goo.gl/Mw6ros); the article stemmed from an earlier account on DC’s musical scene:  https://goo.gl/pxx7Tf.

For more information:  [email protected]

Core performers

Maria Shesiuk is an experimental improviser from Baltimore. She uses vintage Casio keyboards manipulated through various effects for live experimental music improvisations. Recently she also started composing electronic music using Moog synthesizers, manipulated vocals, and field recordings. In addition, her musical journey included playing guitar, bass guitar, and jazz piano lessons. In the last two years her devotion to experimental music exploration has taken on a more central role. 

Maria comes from a family of classically trained musicians. She started out on the same path by playing classical piano as a child in Ukraine in a musical school for the gifted. She also spent many evenings along side her father during rehearsals when he was the chief conductor of Kyrgyz National Opera, and Ballet theatre. At age 11 Maria moved to the U.S. with her family and circumstances shifted her focus to athletics, but music remained her biggest passion. In 2010 Maria moved to Baltimore from Detroit to complete graduate school in Physician Assistant studies. After graduating she jumped back into music. She discovered Baltimore’s Volunteers’ Collective and became a regular there. She always wanted to compose, but it took her many years to find her voice.  The Volunteers’ Collective has helped her do just that. 

Maria was featured in the 2017 High Zero Festival of Experimental Improvised Music  (http://www.highzero.org/ )

T. A. Zook (https://goo.gl/svtpQ) is based in Arlington, VA.   Ms. Shesiuk and Mr. Zook because acquainted at Volunteers Collective improvisation sessions, which provided the catalyst  for Heterodyne’s formation.  Mr. Zook is co-founder of the Lost Civilizations experimental music project (https://goo.gl/OznNw);  Chimiak & Zook ( https://goo.gl/YYNKlW ); and Rosati and Zook (https://goo.gl/8SmFnj).

Mr.  Zook is primarily a nylon-string guitarist; however, in live performances he more commonly plays an NS Design Omni Bass, set up as a basscello,  through digital signal processors.  In 2016, Mr. Zook was awarded Steinberger Artist status.  At studio sessions, he also plays a variety of digitally-processed, non-traditional analog instruments such as bowls, rainsticks, slidewhistle, whistle-flutes, oceanharp, etc.

An Avant Music News interview with Mr. Zook is posted at  http://goo.gl/5LdYos; audio interviews are posted at https://goo.gl/RsPbR9 and  https://goo.gl/ZVvF4l .

Mr.  Zook began his study of the guitar in Chile and Uruguay (the latter under the guidance of Luis Acosta), and continued upon his return to the U.S. in the early 1960s under Sophocles Papas (classical)(http://en.wikipedia.org/wiki/Sophocles_Papas  ) and Frank Mullen (jazz)(http://goo.gl/6E3eir  ; http://goo.gl/niQTYd  ).  From 1999 through 2012, he studied improvisation under David Darling (http://en.wikipedia.org/wiki/David_Darling_(musician)  ; http://www.daviddarling.com/; http://www.musicianguide.com/biographies/1608003038/David-Darling.html  ), a study which continues under the auspices of the Music for People organization (http://musicforpeople.org/wp/ ), which conferred him Honorary Graduate certification in 2011.

During the early 1970s, Mr. Zook had the privilege of working with keyboardist (B-3 & Lawrence Audio electric piano)/singer Larry Buck, who was very supportive in his development as a musician.

Mr. Zook has frequently performed in the Sonic Circuits Festival of Experimental Music (http://dc-soniccircuits.org/).

Mr. Zook is fortunate beyond his ability to express in words for the opportunities that he has had to work with so many accomplished and kind musicians and artists, as well as for the support by audiences for the music that comes through him, thanks to the Muse!

Guest Performers

Patrick Whitehead (https://goo.gl/zfzDxw ) was inspired by the music of Louis Armstrong at age 5.   At age 8, he began playing in his school band.  His broad and varied career spans the decades as a soloist, orchestral, chamber, opera, commercial, and improvising musician.

Possessing a great fondness of brass chamber music, he founded The Monumental Brass Quintet (http://goo.gl/G5PMCO ) and has recorded and toured extensively throughout the U.S. with this ensemble.

As a free-lance trumpeter, Pat’s performed with orchestras at the Kennedy Center and Constitution Hall. He’s also performed with the Annapolis Symphony, Baltimore Symphony, Gettysburg Symphony, the Annapolis Opera, Baltimore Opera,  and Concert Artists of Baltimore,.  Additionally, Pat has recorded for the PBS and ABC television networks, Voice of America, and has performed on numerous radio and TV programs.

In June of 2014 Patrick performed as part of the Momentary Quartet comprised, Jane Buttars- piano, Lin Foulk - horn, and Harold Mckinney- piano  at the annual conference of The International Society for Improvised Music in New York City.

Pat serves on the faculties, as instructor of trumpet, at the Baltimore School for the Arts and the Levine School of Music in Washington DC.  For several years he served as Coordinator of Brass Chamber Music and Director of Trumpet Ensembles at the Levine School.  Additionally, he has taught trumpet and brass methods at Mount Vernon College and the Community College of Baltimore.

Through his involvement (since 2003) with Music for People, Pat has become an avid proponent of improvised music.  As he progressed through MfP’s Music Leadership Program, he’s evolved as a passionate and dynamic facilitator of improvised music workshops. He has presented improv workshops at the Peabody Conservatory’s Prep Division.  The Summer Brass Institute hosted by Monumental Brass, the Howard and Montgomery County Maryland public schools, and at various venues in the central Maryland area.

Pat studied trumpet with George Recker, Rob Roy McGregor, and Langston Fitzgerald.  He studied theory and arranging with Asher Zlotnik.  Pat majored in music education at the University of Maryland where he studied trumpet with Emerson Head.

Bob Boilen (https://goo.gl/FhLJTk ) In 1988, a determined Bob Boilen started showing up on NPR's doorstep every day, looking for a way to contribute his skills in music and broadcasting to the network. His persistence paid off, and within a few weeks he was hired, on a temporary basis, to work for All Things Considered. Less than a year later, Boilen was directing the show and continued to do so for the next 18 years.

Significant listener interest in the music being played on All Things Considered, along with his and NPR's vast music collections, gave Boilen the idea to start All Songs Considered. "It was obvious to me that listeners of NPR were also lovers of music, but what also became obvious by 1999 was that the web was going to be the place to discover new music and that we wanted to be the premiere site for music discovery." The show launched in 2000, with Boilen as its host.

Before coming to NPR, Boilen found many ways to share his passion for music. From 1982 to 1986 he worked for Baltimore's Impossible Theater, where he held many posts, including composer, technician, and recording engineer. Boilen became part of music history in 1983 with the Impossible Theater production Whiz Bang, a History of Sound. In it, Boilen became one of the first composers to use audio sampling — in this case, sounds from nature and the industrial revolution. He was interviewed about Whiz Bang by Susan Stamberg on All Things Considered.

In 1985, the Washington City Paper voted Boilen 'Performance Artist of the Year.' An electronic musician, he received a grant from the Washington D.C. Commission on the Arts and Humanities to work on electronic music and performance.

After Impossible Theater, Boilen worked as a producer for a television station in Washington, D.C. He produced several projects, including a music video show. In 1997, he started producing an online show called Science Live for the Discovery Channel. He also put out two albums with his psychedelic band, Tiny Desk Unit, during the late 1970s and early 1980s. Boilen still composes and performs music and posts it for free on his website BobBoilen.info . He performs contradance music and has a podcast of contradance music that he produces with his son Julian.

Boilen's first book, Your Song Changed My Life, was published in April 2016 by HarperCollins.

Doug Kallmeyer spends much of his time on the road mixing bands which have included Blonde Redhead, School of Seven Bells, and currently with Phantogram (recently returned from a tour to Iceland and Europe).  Add to that list more live work with notable artists including Shellac, Sunny Day Real Estate and Rancid. Both local to the Washington D.C. metropolitan area and on the road, a career which has numbered live shows in the thousands, and continues. His last release, 2005′s “Even Calls” (EM:T, 2005, 302acid) was a group foray into ambient textures which received rave reviews in publications like the UK’s WIRE magazine, and resulted in tours throughout the US and Europe. His most current project, Dubpixels (http://www.dubpixel.com/ ) expands upon modern and classic aesthetics in dubwise music production to include audio and video.(http://www.facebook.com/Dubpixels ; http://en.wikipedia.org/wiki/302_Acid ; http://sesshinnofi.wordpress.com/ ; http://www.facebook.com/pages/The-Mantis/125299140867441 ).

Jerry Busher has been a fixture of the DC music scene for over 20 years. He toured for 8 years with Fugazi playing 2nd drums/percussion as well as on recordings “The Argument” and “Furniture”. He appears on albums by Fidelity Jones, The Spinanes, French Toast, Allscars, Alfonso Velez and John Frusciante. In 2007, he was the “Foley Artist” for Mabou Mines production “Peter and Wendy” at Arena Stage. Jerry worked on the music for the “Winchester” series featured in the 2000 Whitney Biennial, the Oscar-nominated documentary “The Weather Underground”, and is the composer for the film “Frontrunner” (The story of a female presidential candidate in Afghanistan). Recently Jerry has been touring/recording with ESL artist Federico Aubele and working on the “Fugazi Live” series.  Jerry is currently the drummer for Deathfix (http://deathfix.com/),  which has recently returned from a European tour.   A fascinating interview with Jerry is posted at http://traffic.libsyn.com/dissonance/Dissonance_2-12-14_Jerry_Busher.mp3 ; Jerry was also interviewed on WERA-FM’s “Stagecraft”:  https://www.mixcloud.com/alex-vidales/stagecraft-with-alex-vidales-don-zientara-featuring-jerry-busher/. Sarah Hughes (http://www.sarahmariehughes.com/) is based in Baltimore.  Sarah is an alto saxophonist, composer, improviser, educator, and art adventurer hailing from Maryland.  She obtained her MM in Jazz Saxophone at the New England Conservatory in May of 2015 and currently freelances in and around Maryland, DC, Virginia, and New York. Sarah graduated with a bachelor’s degree in music education from the University of Maryland in 2008. While there she studied privately with world-renowned classical saxophonist Dale Underwood. After graduating, Sarah taught beginning band and strings in Prince George’s county schools for five years and also maintained two private studios in Maryland and Virginia. During that time she performed in and around DC and New York City with ensembles including the Bohemian Caverns Jazz Orchestra and the Brad Linde Ensemble, a Washington D.C.-based collective dedicated to exploring and expanding the styles of jazz that emerged in the 1950s including bebop, cool jazz, third stream, and free jazz. As part of these ensembles, Sarah shared the stage with jazz greats such as Lee Konitz, Ted Brown, Freddie Redd, Matt Wilson, and Michael Formanek. While at the New England Conservatory, Sarah studied privately with Jerry Bergonzi, Ran Blake, Donny McCaslin, and Anthony Coleman, all of whom impacted Sarah’s unique approach to improvisation and music-making. Sarah performed on Coleman’s latest album, “You” and has performed with Coleman in concerts at the New England Conservatory as well as Roulette and The Stone in New York.  Sarah studied composition in classes with Ken Schaphorst and also Ben Schwendener, with whom she has performed several duo concerts in Boston. In September of 2015 Sarah toured Sweden as part of Amy K. Bormet’s “Ephemera” and performed in Sweden’s first Women in Jazz festival. She also recently taught an improvisation workshop, “Improvisation for Everyone: Games and Storytelling” for beginning, intermediate, and advanced instrumentalists in the 2016 Judith Lapple Summer Woodwind Camp in Fairfax, Virginia. ��Most recently, she went on tour with an improvising trio “Lead Bubbles”, playing venues in New York, Montreal, and Toronto. Sarah hopes her music and teaching will continue to introduce her to new people, places, and art.

Dan Gutstein (http://en.wikipedia.org/wiki/Daniel_Gutstein) is a preeminent poet; the author of two collections, non/fiction, and Bloodcoal & Honey; his writing has appeared in 100 journals and anthologies. Dan has taught at a number of colleges and organizations, including George Washington University and the Smithsonian.  More at  http://dangutstein.blogspot.com/.

Leah Gage (https://goo.gl/QZ7URU;  https://goo.gl/FKjQ3L;  https://goo.gl/EpWGZf;  https://goo.gl/84XKJU;  https://goo.gl/sD56d2 ) As a musician, Leah Gage's primary focus is connection -- with her audience, her bandmates, and her community.  After moving back to her hometown of Washington D.C. six years ago, her passion for her craft was nourished by the vibrant DIY music scene; as a current member of the bands BRNDA and Stronger Sex, Leah is now a powerful performer in the community that reignited her creativity.

Sam Lohman drums for Trio OOO, New Atlantis Duo and Matta Gawa.

Amanda Huron (http://amandahuron.net/) is drummer for Puff Pieces (http://amandahuron.net/music-culture/#/puff-pieces/ ; http://puffpiecesband.tumblr.com/) and Weed Tree (http://amandahuron.net/music-culture/#/weed-tree/). 

Schedule

August 9, 2017 at MONDO (with Patrick Whitehead and Bob Boilen) -- details: https://august-9-at-mondo.tumblr.com/.

August 12, 2017 at Red Room (with Patrick Whitehead and Bob Boilen) -- details: https://august-12-at-the-red-room.tumblr.com/.

August 21, 2017 at Dew Drop Inn DC (with Patrick Whitehead, Bob Boilen, and Doug Kallmeyer and members of the Lost Civilizations experimental music project) -- details: https://august-21-at-dew-drop-inn-dc.tumblr.com/.

September 18, 2017 at Galaxy Hut (with Doug Kallmeyer, Jerry Busher and Sara Hughes)-- details:  https://september-18-at-galaxy-hut.tumblr.com/ .

October 3, 2017 at “453” (with Sarah Hughes)-- details:  https://october-3-at-453.tumblr.com/. CANCELED

October 10, 2017 at MONDO (with Sarah Hughes and Doug Kallmeyer) -- details:  https://october-10-at-mondo.tumblr.com/ .

October 21, 2017 at Saint Stephen and the Incarnation (w/ Sarah Hughes, Jerry Busher, Patrick Whitehead and Doug Kallmeyer) -- details https://october-21-benefit.tumblr.com/.

November 2, 2017 at the Four Hour Day Lutherie -- details: https://www.facebook.com/events/1937085106545813; https://november-2-mclaughlin-heterodyne.tumblr.com/ 

November 16, 2017 at Dew Drop Inn DC -- details:   https://www.facebook.com/events/1830278160635764; https://november-16-at-dew-drop-inn-dc.tumblr.com/ 

December 1, 2017 at VisArts in Rockville, MD -- details:  https://www.facebook.com/events/112997012718339 .

December 3, 2017 at RhizomeDC -- details:  https://www.facebook.com/events/1038697019651403 

December 14, 2017 at RhizomeDC -- details:  https://december-14-at-rhizomedc.tumblr.com/; https://www.facebook.com/events/175391356388193/.

December 22 at the Velvet Lounge -- details:  https://december-22-at-the-velvet-lounge.tumblr.com/;  https://www.facebook.com/events/193582011189504/

January 11, 2018 at An die Musik -- details:  https://january-11-at-an-die-musik.tumblr.com/; https://www.facebook.com/events/1752385475056446/ .

January 14, 2018 at The Crown (Sarah Hughes Ensemble) -- details:  https://sarah-hughes-at-the-crown.tumblr.com/; https://www.facebook.com/events/313733955796662/ 

January 18, 2018 at Dew Drop Inn DC -- details:   https://january-18-at-dew-drop-inn-dc.tumblr.com/;  https://www.facebook.com/events/1743003839341092/.

January 19, 2018 at The Fringe (solo T. A. Zook basscello performance) -- details:   https://january-19-at-capital-fringe.tumblr.com/;  https://www.facebook.com/events/561632970852727/.

March 22, 2018 at Hampden’s Corner Bar (Baltimore) -- details: https://march-22-in-hampden.tumblr.com/; https://www.facebook.com/events/603617553308996/

March 25, 2018 at Galaxy Hut -- details:  https://march-25-at-galaxy-hut.tumblr.com/;  https://www.facebook.com/events/1784627541547857/ 

April 6, 2018 at The Holy Underground (Baltimore) -- details:  https://april-6-at-the-holy-underground.tumblr.com/;   https://www.facebook.com/events/213165656085586/ .

June 8, 2018 at EMP Collective (Baltimore) -- details:  https://june-8-at-emp-collective.tumblr.com/; https://www.facebook.com/events/2249699411737581/

June 21, 2018 at Make Music Day DC at Clarendon Central Park 

July 7, 2018 at RhizomeDC -- details:  https://july7-at-rhizomedc.tumblr.com/; https://www.facebook.com/events/469149873541209/.

August 26, 2018 at Galaxy Hut -- details:  https://goo.gl/GWXqbf; https://www.facebook.com/events/196203714386464/ ; Rebecca Zook’s (https://www.facebook.com/rebeccazookmusic/; https://www.rebeccazookmusic.com/) video of the performance:   https://youtu.be/HKvZ_JXRaOA .

September 13, 2018 at Dew Drop Inn DC -- details:  https://september-13-at-dew-drop-inn-dc.tumblr.com/; https://www.facebook.com/events/2006024979419540/ .

September 15, 2018 at RhizomeDC -- details:  https://september-15-at-rhizomedc.tumblr.com/.

September 29, 2018 at Art All Night (https://www.artallnightdc.com/blagden-alley/ ;   https://goo.gl/maps/DDHncDQZ5Az) 

October 16, 2018 at Slash Run -- details:  https://www.facebook.com/events/510604252741485/

October 22, 2018 at Galaxy Hut -- details :  https://october-22-at-galaxy-hut.tumblr.com/; https://www.facebook.com/events/1919654934754374/.

November 3, 2018 at Function Co-working Community (Baltimore) -- details: https://november-3-at-function.tumblr.com/; https://www.facebook.com/events/2092343177743075/ .

December 9, 2018 at Holy Underground (afternoon performance) -- details:  https://december-9-at-holy-underground.tumblr.com/;  https://www.facebook.com/events/370710517003823/

December 22, 2018 at RhizomeDC -- details:  dec-22-at-rhizomedc.tumblr.com 

January 13, 2019 at the 9:30 Club -- details:   https://www.facebook.com/events/579330785848249/; https://susan-mumford-memorial.tumblr.com/

Downloads

Heterodyne’s sessions and performances are totally unscored, unrehearsed and extemporaneously improvised on the spot, so no two sessions or performances are identical.  All of Heterodyne’s sessions and performances are recorded and posted for free download:  

- Volume I:  https://goo.gl/SK7Hqz

- Volume II:  https://goo.gl/zM3Y2R

- Volume III:  https://goo.gl/SRTZqD

- Volume IV:  https://goo.gl/V9tbkN

-Volume V: https://goo.gl/pSjQoS

- Volume VI:  https://goo.gl/7L84Ac

- Volume VII:  https://goo.gl/Sx6sVh

- Volume VIII:  https://goo.gl/yJa1Te

- Volume IX:  https://goo.gl/bLnNf4

- Volume X:  https://goo.gl/WkMDPJ

- Volume XI:  https://goo.gl/yks5Q1

- Volume XII:  https://goo.gl/g69n6W

Video of August 26, 2018 performance by Rebecca Zook (https://www.facebook.com/rebeccazookmusic/; https://www.rebeccazookmusic.com/):  https://youtu.be/HKvZ_JXRaOA

Heterodyne + the Lost Civilizations experimental music project (http://lost-civilizations.tumblr.com/):  https://goo.gl/gtMCe2

This ’68 Dodge Charger Is The Ultimate Pro Street Reboot!

For Dodge stylist Richard Sias, the 1968 Charger proved to be an amazing contribution to automotive history. A Michigan native who studied at the Art Center College of Design in Pasadena, California, Sias was a young man on a mission when he was given the directive to put body lines to the 1968 rendering of the car by his bosses at Chrysler’s design studio. Despite mis-pronouncements by some higher-level managers, his model prevailed as the one released in late 1967. Ironically, after this amazing project, he would leave Detroit soon after and never designed another OEM combination, eventually going to Boeing for decades where he put his talent on things like airplane equipment.

The 1968 Charger, in many ways, defines this whole era when it came to muscle car styling. The curved fender bulges, turbine cues in the taillights and dash cluster, the flying buttress rear window, deeply-inset grille, and body-stamped paired scallops gave it a refined but aggressive stance. It did not rely on scoops, gimmicks, or colors; the only additional performance cue was a pair of twin stripes that wrapped around the rear as part of the Dodge Scat Pack on R/T versions. Whether Sias foresaw it or not, popular culture “got it” right away, heralding it on magazine covers and in test reviews. Indeed, even Hollywood gravitated to the design almost immediately, with the ’68 model showing up in the 1969 Steve McQueen movie classic Bullitt as well as supporting roles ranging from Cannonball to Christine.

The example here is modified, but really not a far cry from what Mr. Sias’ original vision entailed. Recently completed by builder Scott Bonowski of Hot Rods & Hobbies, a shop in Signal Hill well-noted in street rod and restoration circles, the Charger features visual tweaks on the outside and big changes under the skin. The car was actually a multi-year project for owner Darren Moore, whose background lies more in the world of prewar Packards (including a Packard-powered P-51D) and rare Ferraris. Darren wanted a muscle car that he could drive, and had always appreciated the Charger’s design.

“I had always liked the Charger since I was a kid and it is my favorite muscle car,” he recalls. “When I sold my business and retired, I had a little money and decided to have one built as a hot rod. Scott has done other cars for me, but this would be my first hot rod.”

The chase for the perfect muscle car led to a candidate that appeared to be just right. Dressed up as an R/T with a mildly reworked 440 engine, he bought the car and had it sent directly to Scott’s shop. This is when the rude awakening happened, as a lot of mechanical make-up had hidden the car’s true condition.

Scott recalls what was actually there on this so-called restoration. “Well, the car was complete but built to be sold quick,” says the award-winning car builder. “Bad blends and repairs had been made to look original but were done very poorly. So when we pulled up the carpet and took out the seats, there were no floorboards! The fenders and hood were smashed. Just major problems…”

Nevertheless, the men proceeded to come up with a plan to resolve all of this. Since driving was part of the reason for Darren’s purchase, they decided to simply go all out on making that its role. That said, there were some parameters set up going in. First, no radical body changes on the outside—no extras scoops or Daytona wings or stuff like that. In fact, Darren even wanted to stay with a 15-inch steel wheel that looked OEM rather than Cragars or the American Racing five-spokes that came on the car when he bought it. Second, since there would be additional suspension mods, the engine would become a classic gen-2 Hemi. Third, there was not to be big changes to the interior. Bonowski, whose clientele are far-ranging and well-informed, began looking at how he could complete the idea.

“Darren wanted basically a stock restoration but he also wanted to add some power, to be a real muscle car,” Scott says. “Since the engine was not numbers-matched, we looked at possible motor combinations and that 572 came up. I like the sound of that—big horsepower—but now how we make it handle then? How do we make it stop better?”

“The Hemi kind of got chosen as we went along,” remembers Darren now. “The 440 that was in it was not in great shape, and Scott decided that if we got the Hemi crate motor and had it built up, that would make this car something special.”

So for horsepower, Bonowski turned to Joe Jill at Superior Automotive Engineering in Placentia. Old-school guys may remember Joe from his Speedwin days when the ’68 Charger was new. Back then, he was in Long Island, New York, building and tuning engines for guys like Charlie Castaldo, a noted Big Apple Super Stock and Pro Stock racer. Now a long-time builder in California, Joe started with an Indy Maxx Hemi engine package with a big arm down below, bringing the displacement up to 572 cubes. Balanced and using a COMP cam he had developed, the motor pushed the dyno needle hard.

“Indy sends this block to us rough-bored. We do all of the boring, the honing, the deck work here,” Joe notes. “On these engines, we do a very exact balancing. The head work, tricks on the camshaft, and how we set that up, and a lot of valvetrain work, geometry-wise; it is all synergistic. We optimize that before we even order the cam. COMP makes the cam for us once we see where we are at on our flowchart. We tuned the EFI for the engine right on the dyno, and it made just under 800 horsepower. We like them to bring it back here once it is in the car and we can put it up on our chassis dyno and get it exact.”

FAST came through with an EFI and ignition system, bringing the engine management into the present era. As we prepared to go to press with our story, the decision has been made to use a NASCAR-style cowl-based fresh-air layout in place of the present front-routed tube design seen here.

Since this was not going to be a pinion-climbing drag car, Scott selected a well-built Torqueflite equipped with a Gear Vendors overdrive bolted on the tailshaft. This in turn feeds power to the differential and out to the massive Hoosier blackwall 29×15.5-15 tires mounted on custom steelies with pie-pan caps. This, of course, is the first indication that the car is a little more hairy than its predecessors, even from McQueen’s day.

“Darren was dead set on the 15-inch wheels. He really didn’t want it to look too hot rod,” says Scott. “However, with all the horsepower, it needed real tires in the back. Since we had to do the floors anyway, we ordered the narrowed rear and tubbed it a little bit. The tubs are four inches over stock, but the gas filler neck is in the same spot and the special fuel cell was narrowed because of the four-link.”

Working with a Reilly Motorsports Alter-K-tion front suspension, a number of changes were made both fore and aft. Up front, this Charger sports coilovers and rack-and-pinion steering. Not what the purist guys might jump into with both feet, but a design that would let Darren feel the road the way he wanted to. Subframe connectors tie those parts into a custom four-link rear suspension made from Art Morrison components. This is set into the basic OEM forward mounts, which Scott achieved with careful planning before anything was cut. The fat rubber out back meant 4-inch tubs, which in turn required a bottom mount fuel cell that still holds 20 gallons of go-fast juice. With coilovers also employed here, the heavy OEM leaf springs also ended up in the parts pile, meaning the rear view is comprised of nothing but frame rails, custom bent chrome tail pipes, and the fuel tank.

What is perhaps most impressive are the subtle changes that required considerable effort but are barely noticeable. The rear fenders are flared out by about 1.5-inch per side. The side marker lights were filled in, and the bumpers were slightly narrowed (stuff guys like NASCAR legend Harry Hyde once did but never told anyone when Chargers first showed up). The lower front valance was closed up, a custom front chin spoiler was added, and an auxiliary trans cooler was located in the area once occupied by the K-member. Most importantly, the stance of the car was not given a rake, despite the tire size differences, a direct result of careful suspension adjustments thanks to the upgrades. It looks the part of “not really stock.” Along with these these changes, most of the chrome and emblems were left intact, no graphics were added, and a deep mix of green pearl helped make this Charger appear more nasty than usual.

If Darren were to offer you a shotgun seat blast down the freeway near his Palos Verdes home, you might comment, “nice, but what’s up with this AM radio?” Not so fast, kemosabe. Everything behind that dash is modern—Bluetooth connectivity and tucked-away speakers by Art of Sound are only the start. The gauges are modern analog and digital units that tell the exact story of what is going on. The factory seats were redone in leather by Elegance Auto Interior, a Hurst T-handle is in the console, the tach redlines at 7,500, and the speedo only goes to 160 mph, which is okay considering the NASCAR guys found out at Daytona that the Charger’s grille/rear window combo meant it wanted to come off the ground not far above that margin.

You are getting a true first look at this car. After finishing third at the legendary Grand National Roadster Show in Pomona, we got it into the studio before Scott had gotten a chance to actually drive it and final-tune it for delivery. Meanwhile, Darren is getting ready to see the 24-month project out on the open road.

“I have not driven it once yet,” he admitted. “I’m not really a car show guy, and I’m not a kid growing up anymore, either. I think I will probably just get on it a few times but basically just cruise it; it has the overdrive capability to let me enjoy it. A real true car guy will realize what is there as he looks at it.”

Fast Facts

1968 Dodge Charger | Darren Moore | Palos Verdes, CA

ENGINE Type: 572ci 426 gen-II Hemi Bore x stroke: squared at 4.5 (bore) x 4.5 (stroke) Block: Indy MAXX aluminum; machined at Superior Automotive, honed on a Rottler with a plateau finish for correct ring seal, deburred and painted Race Hemi orange Rotating assembly: Eagle crank and rods, Diamond forged pistons Compression: 10.4:1 Cylinder heads: Indy aluminum with Superior’s custom port modification/rework, 439 cfm flow (intake), 280 cfm flow (exhaust) Camshaft: COMP Cams solid lifter .640-/.633-inch lift, ground to Superior’s design specifications, installed on 114-degree centerline Valvetrain: Indy rockers, 2.400-inch intake valves, 1.940-inch exhaust valves Induction: Indy intake Fuel system: FAST EFI Exhaust: 3-inch diameter stainless exhaust Ignition: FAST Cooling: Mattsons Fuel: 91-octane pump gas Output: 775 at 6,000, 741 ft-lbs at 4,800 Engine built by: Joe Jill/Superior Automotive

DRIVETRAIN Transmission: A727 TorqueFlite 3-speed automatic with Gear Vendors overdrive Driveshaft: Driveline Service Rearend: Art Morrison Ford 9-inch, 3.70 gears

CHASSIS Construction: Scott Bonowski of Hot Rods & Hobbies Front suspension: Alter-K-tion layout, coilover QA1 shocks Rear suspension: Art Morrison components custom-fitted to OEM mount locations, coilover QA1 shocks Steering: Reilly Motorsports Alter-K-tion rack-and-pinion Front brakes: Wilwood 4-piston DynaLite discs with 12-inch rotors Rear brakes: Wilwood 4-piston DynaLite discs with 12-inch rotors

WHEELS & TIRES Wheels: stock-style steelies, 15×7 (front), 15×10 (rear) Tires: BFG 215/65R15, front; Hoosier 29×15.5R15, rear

INTERIOR Seats: custom leather over 1968 framework by Elegance Auto Interior Instruments: custom sweep-design with digital adjustment Stereo: 21st century connectivity housed behind factory design facing Steering wheel: custom refinished original Shifter: Hurst T-handle

The head-on view of Darren Moore’s 1968 Charger is the first impression that there is more than meets the eye. Yes, that front bumper is narrowed and shaved thanks to careful work by Scott Bonowski of Hot Rods & Hobbies. Shades of NASCAR tricks…

Got meat? A careful fitting of the rear end plus light fender flaring allows these big Hoosier to disappear under the car. Darren wanted to avoid the attention of aftermarket wheels, sticking with widened 15-inch steelies as a result.

One of the best styling cues done by Richard Sias and his crew were the cast turbine-style taillamps. These were unique to this single model year, and distinguish these cars from all others from behind.

Under the hood is big thunder: a FAST fuel-injected 572ci Indy-based Hemi built by Joe Jill of Superior Automotive. The induction system seen here will be superseded by a change to cowl induction in the near future.

Darren truly wanted to maintain a street look at first glance, forgoing aftermarket shiners for these 15 inchers widened to 10 inches, shod in fat, non-descript blackwall Hoosiers.

Looking like nothing to come off a 1960s assembly line, this Alter-K-Tion layout allows for modern handling accessories beneath the legendary sheet metal.

Here is what the interior appears like after a light reworking: fresh gauging, a digital stereo, and reupholstered bucket seats. These changes are all done within the original 1968 design.

Using components from Art Morrison, the view underneath from behind is as radical as that from the front. Here the leaf springs were eliminated, and the AME components are worked into the OEM mounting points.

Chrome fitted plumbing for the radiator and more make this a unique vehicle from every angle. It was this level of attention by Scott Bonowski that helped garner honors at Pomona’s long-running Grand National Roadster Show.

By using an Art Morrison aftermarket differential, the car sports DynaLite rear disc brakes thanks to Wilwood. This was again part of allowing the car to be enjoyed.

The car still appears quite stock despite the changes, again a testament to the effort by Hot Rods & Hobbies. Note that the side markers were filled in during the course of the body work.

The post This ’68 Dodge Charger Is The Ultimate Pro Street Reboot! appeared first on Hot Rod Network.

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