Company Filing History:
Years Active: 2001
Title: Goran Klang - Innovator in CDMA Technology
Introduction
Goran Klang is a notable inventor in the field of telecommunications, particularly known for his contributions to Code Division Multiple Access (CDMA) communication systems. His innovative work has significantly impacted the efficiency and performance of CDMA technology.
Latest Patents
Goran Klang holds a patent titled "Search Window Delay Tracking In Code Division Multiple Access Communication Systems." This invention provides a search window delay tracking procedure for use in a multipath search processor of a CDMA radio receiver. The process involves estimating a channel impulse response for a received signal containing multiple paths, each with a corresponding path delay. The invention calculates a mean delay for the estimated channel impulse response and determines an error between this mean delay and a desired delay position. Adjustments are made to align the search window with the mean delay, minimizing errors and reducing noise influence.
Another significant patent is "A CDMA Receiver That Shares A Tracking Device Among Multiple Rake Branches." This invention describes a CDMA receiver that includes multiple RAKE branches for despreading received CDMA signals. A single tracking device is shared among these branches to track the delays of the received signals, enhancing the efficiency of the system.
Career Highlights
Goran Klang is currently associated with Telefonaktiebolaget Lm Ericsson (publ), a leading telecommunications company. His work at Ericsson has allowed him to contribute to advancements in mobile communication technologies.
Collaborations
Goran has collaborated with notable colleagues such as Branislav M Popovic and Georg Frank, further enriching his contributions to the field of telecommunications.
Conclusion
Goran Klang's innovative patents and contributions to CDMA technology highlight his significant role in advancing telecommunications. His work continues to influence the efficiency and performance of communication systems today.