Dr. Paul Zarda is an Orlando-based professional who is known for inventing the ‘Zarda-Top-Spin-Racquet’ or Z-TSR. This racquet is designed in such a way that it provides top spin to the ball by using a completely different design as compared to other racquets available in the market. Its sleek design causes the ball to exhibit a 50% increase in spin than a conventional racquet.

Zarda-Top-Spin-Racquet has an inner frame, which is under high tension when it makes contact with the ball. With the help of an isolation system, the inner frame is connected to the outer frame that allows the movement of the inner relative to the outer frame resulting in the additional spin when the ball is struck. Major attributes of the invention was to enhance a ball’s rebound spin as well as the accuracy of the ball’s trajectory. Another advantage of Z-TSR is to decrease the motion of the strings thereby extending the life as well as performance of the frame.

Paul Zarda’s invention allows for the adjustment of the in-plane Ky and Kx stiffnesses. If the racquet is swung where the motion of the head is not precisely parallel to the ground, the ball will still rotate about an axis parallel to the ground. This process results in a planar trajectory thereby enhancing the accuracy of the impacted ball. 

Apart from his busy schedule, Dr. Paul Zarda loves to spend time with his family. He pursues his hobbies like playing tennis and the design and analysis of tennis racquets. He is also associated with 13,000 “alligator friends” at his home on Orlando’s Lake Jesup, Florida.

Paul Zarda is the Inventor of theTop-Spin-Racquet or Z–TSR

Dr. Paul Zarda is an Orlando-based professional who is known for inventing ‘Zarda-Top-Spin-Racquet’ or Z-TSR. This racquet is designed in such a way that it provides top spin to a impacted tennis ball by using a completely different design as compared to other racquets available in the market. Its design causes 30-50% increased spin over a conventional racquet.

The Zarda-Top-Spin-Racquet has an inner frame, which is strung under high string tension. With the help of an isolation system, the inner frame is connected to the outer frame and that allows the movement of the inner relative to the outer frame resulting in the additional spin when the ball is struck. This invention also enhances the accuracy of the ball’s trajectory. Another advantage of Z-TSR is to decrease the motion of the strings thereby extending the life as well as performance of the frame.

Paul Zarda’s invention allows for the adjustment of the in-plane Ky and Kx stiffness’s independent of the head’s motion as the ball strikes. If the racquet is swung where the motion of the head is not precisely parallel to the ground, this design allows the ball to rotate about an axis parallel to the ground. This process results in a planar ball trajectory thereby enhancing the accuracy of the impacted ball.

Apart from his busy schedule, Dr. Paul Zarda loves to spend time with his family while pursuing his hobbies of playing tennis and the design and analysis of tennis racquets. He is also associated with 13,000 “alligator friends” at his home on Orlando’s Lake Jesup, Florida.

Dr. Paul Zarda Specializes in Knowledge Based Engineering and Mechanical Computer Aided Engineering

Dr. Paul Zarda is an experienced mechanical engineer with both theoretical and practical expertise in Mechanical Computer Aided Engineering (MCAE) and Knowledge Based Engineering (KBE). He has chaired a Mechanical Design benchmarking team at the local and corporate level. Dr. Zarda was chosen from among 80 engineers spanning 25 contractors as Chairman of the Guidance Team, on DARPA’s MADE and RaDEO program in Knowledge-based Engineering for which he was Program Manager. The Director of DARPA awarded the team for their significant contribution in the KBE methodology.

Currently, Dr. Paul Zarda is serving as a Distinguished Member, Technical Staff, and Manager of the Engineering Methods Group at Lockheed Martin Missiles and Fire Control. Dr. Paul Zarda has also worked as an Adjunct Professor, Research Professor of Mechanical Engineering in Department of Mechanical, Materials & Aerospace Engineering at University of Central Florida.

Despite a busy professional life, Dr. Paul Zarda makes time for his family that includes his wife Adrienne, three children and seven grandchildren. He also likes to play tennis and spend time in the design and analysis of tennis racquets. He has association with 13,000 “alligator friends” at his home on Orlando’s Lake Jesup, Florida’s “highest density of gators” lake.

Dr. Paul Zarda Has Gained Worldwide Recognition for His Invention of “Zarda Top Spin Racquet”

Dr. Paul Zarda is an Orlando based highly qualified professional having many years of experience as a Mechanical Engineer. He holds immense expertise in the areas of MCAE (Mechanical Computer Aided Engineering), and (Knowledge Based Engineering) KBE. He has completed his PhD in Engineering Mechanics from Columbia University in Bio-mechanics & Bio-engineering. He is also the inventor of a tennis racquet called “Zarda-Top-Spin-Racquet” or the Z-TSR. He designed it in such a way that it is able to provide top spin to the ball by using a unique design in compared to the spaghetti racquet as well as other racquets available in the market.

Dr. Paul Zarda’s racquet has an inner frame which contains strings under tension that make contact with the ball. The outer and inner frames are connected through an isolation system that allows the movement of inner frame relative to the outer frame upon the impact of ball. Additional spin is generated by the in-plane motion of the inner relative to outer frame. The spin generated is significantly more than that of a traditional racquet.

The Z-TSR has the ability to modify the isolation system in order to affect the play of the racquet. You can replace, adjust, or supplement the isolated system before any on-court play.

Dr. Paul Zarda Has Gained Worldwide Recognition for His Invention of “Zarda Top Spin Racquet”

Dr. Paul Zarda is an Orlando based highly qualified professional having many years of experience as a Mechanical Engineer. He holds immense expertise in the areas of MCAE (Mechanical Computer Aided Engineering), and (Knowledge Based Engineering) KBE. He has completed his PhD in Engineering Mechanics from Columbia University in Bio-mechanics & Bio-engineering. He is also the inventor of a tennis racquet called “Zarda-Top-Spin-Racquet” or the Z-TSR. He designed it in such a way that it is able to provide top spin to the ball by using a unique design in compared to the spaghetti racquet as well as other racquets available in the market.

Dr. Paul Zarda’s racquet has an inner frame which contains strings under tension that make contact with the ball. The outer and inner frames are connected through an isolation system that allows the movement of inner frame relative to the outer frame upon the impact of ball. Additional spin is generated by the in-plane motion of the inner relative to outer frame. The spin generated is significantly more than that of a traditional racquet.

The Z-TSR has the ability to modify the isolation system in order to affect the play of the racquet. You can replace, adjust, or supplement the isolated system before any on-court play.

Dr. Paul Zarda Is a Well-Seasoned Mechanical Engineer Based In Orlando

Dr. Paul Zarda is an Orlando based highly qualified professional who is skilled in all aspects of mechanical engineering. He has both theoretical as well as practical expertise in the field of MCAE (Mechanical Computer Aided Engineering) & KBE (Knowledge Based Engineering). He also chaired a Mechanical Design bench-marking team at the corporate & local level. He also served as the Program Manager in Knowledge Based Engineering on DARPA’s MADE AND RADEO program.

Dr. Paul Zarda has over 30 years of experience in the area of finite element & finite difference algorithms. Paul has been invited as a speaker at various functions including ASME, University of Central Florida (UCF), University of Florida, and AIAA functions. He has taught over 20 courses in the CES program at Lockheed Martin & approximately 15 courses to over 300 students in UCF’s graduate and undergraduate program.

Dr. Paul Zarda‘s responsibilities at Lockheed Martin fall into categories including Program Manager of several contracts with WPAFB, Distinguished Member of the Technical Staff assigned to Research and Technology, and Manager of the Engineering Methods Group. He is an expert in finite element techniques applied to stress & dynamic analysis within Lockheed Martin. His work has led to the development of various tools that increase an engineer’s productivity. He is also responsible for the development of FEM/SINDA, which is an industry standard thermal analysis code that has changed the way thermal analysis is performed at Lockheed Martin, offering significant productivity gains to the engineering community.

Paul Zarda Is Responsible For Moving The Engineering Community To Workstations

Paul Zarda is an Orlando based highly skilled professional with many years of working experience at Lockheed Martin. He is responsible for moving the engineering community to workstations, which resulted in an increase in computational capability and productivity. The transition from a VMS environment to Unix environment required a move that was led by the MCAE Analysis Group. The significant increase in productivity was welcomed by the engineering community.

He also has expertise in MCAE ( Mechanical Computer Aided Engineering) as well as KBE ( Knowledge Based Engineering). He supervised a Mechanical Design benchmarking team both at the local and corporate levels and also served as a Program Manager on DARPA’ s MADE and RaDEO program in Knowledge Based Engineering. This team received notable recognition from the Director of DARPA for their contribution in KBE methodology. Paul Zarda of Sanford also helped in acquiring a suitable communication link between IBM 3090 and VAX system. This process resulted in the interlinking of a hardware/software communication package that coupled IBM and VAX systems. This integration supported the foundation between IBM and DEC mainframes and the HP, DEC, IBM, and SG workstations.

He also acquired MSC/NASTRAN for structural analysis on the IBM 3084. Until this time, Lockheed Martin had been using structural analysis codes that were developed over 20 years ago, and were poorly documented and unsupported. This totally changed the way structural analysis was to be performed over the following years.

When Paul Zarda is not busy with his professional commitments, he likes to spend quality time with his family members, playing tennis and designing tennis racquets, and wood working in his home shop. Owing to his skills and expertise, he has established himself as a respected expert in his field.  

Paul Zarda Served As A Research Analyst Of Finite Element Modeling And Fluid Interaction

Paul Zarda of Sanford, Florida, is a reputed professional having years of experience in serving different areas. He served as a Research Analyst at David Taylor Research Development center which concentrates in the area of finite element modeling of fluid interaction problems and also joined Westinghouse, where he served as a Senior Engineer in Analysis and Design of nuclear steam generators. Later, he joined Lockheed Martin after serving at Westinghouse.

At Lockheed Martin, he served as a Program Manager in Web Based Design Environment which is jointly funded and supported by the combined efforts of Lockheed Martin, WFAPB, and Software Developer Technosoft. This collaboration was done in order to develop a collaborative web design environment. This design environment is based on AML, an object-oriented adaptive modeling language, which was offered by Technosoft. The AML/WDE environment constituted multiple servers, including an object request broker that coordinated communications between the servers and also multiple clients.

Paul Zarda also serves as the Program Manager of SHVD (Supersonic Hypersonic Vehicle Design program which is the development of a well enabled, object oriented, distributed framework that provides the environment for design and simulation of TAV’s (Trans Atmospheric Vehicles). The SHVD system manages data transfers between several designs and simulation tools. It is also based on AML programming language along with IMD system and the WDE/AML collaborative environment.

Paul Zarda of Orlando, has also revaluated engineering processes at Lockheed’s Missile and Fire Control Facility. His intervention led to the fully developed architecture and methodology to capture that knowledge. The Engineering Methods Group provides the IMD and IGD systems for the conceptual missiles and fire control designs. IMD has been pointed out by Lockheed’s Air Force customer as the key discriminator in recent proposal wins. Because of these skills and expertise Dr. Zarda has established a strong reputation among his peers and professionals.