Dr. Wadekar's clients include large corporations such as Ansys, HTC, and Applied Materials, as well as small companies and start-ups and research and educational institutions such as Draper Labs and Woods Hole Oceanographic Institution. Dr. Wadekar has advised clients in various patent prosecution and litigation matters related to the following technologies:
- Software systems – including systems for efficient storage and manipulation of large multi-dimensional matrices, lock-free data exchange in massively parallel multi-processor systems, managing performance and loading of hierarchical multiprocessor systems, and analysis and simulation of electronic packages and transmission lines.
- Circuits and hardware systems – including control systems for smart grids, advanced, reconfigurable antenna systems, micro-electro-mechanical systems (MEMS) for inertial navigation, VLSI systems for advanced imaging, FPGA-based systems for Big data processing, underwater optical measurement, vehicle tracking, 3G and 4G LTE circuits for cellular networks, speech processing, and light-emitting and laser diode fabrication.
- Medical devices – including non-invasive systems for blood-glucose measurement, laser-based dental treatment, imaging, and diagnosis systems, and electronic controllers for such systems, and external and embedded electro-magnetic coils for treatment of brain disorders.
- Social media, financial services, and advertising systems – including efficient database systems for up to petabyte storage and mining of social media data, systems for secure and fail-proof exchange of financial data, systems for two-factor identification of user devices, targeted advertising and control thereof on mobile platforms, and measurement of advertisement impressions and reach.
- Other devices and systems – such as robotic and biomimetic prosthetic and orthotic devices and electronic control for such devices, satellite and non-satellite based outdoor and indoor geolocation, and network path prediction and performance estimation.
- In re Certain Electronic Imaging Devices, ITC Investigation No. 337-TA-850. Represented a major Chinese mobile phone manufacturer (ZTE) against claims for patent infringement by FlashPoint Technology, Inc. The asserted patents related to adaptable mobile operating systems. Participated in drafting expert reports and statements, and cross-examination of fact witness at trial.
- In re Certain Light-Emitting Diodes and Products Containing the Same, ITC Investigation 337-TA-802. Represented OSRAM in an ITC investigation concerning light emitting diodes (LEDs). The asserted patents were directed to the epitaxial semiconductor structure of an LED. Participated in drafting expert reports and statements, deposition of fact witness, and preparation of expert and fact witnesses for trial.
- Lumenis Ltd. et al v. Alma Lasers, Ltd. et al. (N.D. IL). Represented Alma Lasers, a medical device maker, against patent infringement contending invalidity of patent claims issued after an ex parte reexamination, citing new prior art.
Proceedings before the USPTO
Drafted more than 12 inter partes reexamination requests and inter partes review petitions, and several ex parte reexamination requests. These requests/petitions were related to a range of technologies including speech synthesis, LED manufacturing processes and efficient LED structures, administration of a drug for arthritis, and prosthetic and orthotic devices.
IP Diligence and Freedom to Operate (FTO) Review
Advised clients during mergers and acquisitions and during FTO analysis on issues related to the use of open-source software in medical systems, and systems for online bidding and auctioning, electronic payment, network security and coffee filtration systems.
- An Advisory Engineer/Scientist at IBM Corp., where he served as principal architect of chip-optimization methodology used in the design of state-of-the-art computer chips.
- Sr. R&D Engineer at Synopsys Inc., where he developed software techniques as part of Synopsys Behavioral CompilerTM for automatic synthesis of chips from algorithmic description of such chips.