This paper investigates asymptotic stabilization for linear systems over networks based on event-driven communication. A new\r\ncommunication logic is proposed to reduce the feedback effort, which has some advantages over traditional ones with continuous\r\nfeedback. Considering the effect of time-varying transmission delays, the criteria for the design of both the feedback gain and the\r\nevent-triggering mechanism are derived to guarantee the stability and performance requirements. Finally, the proposed techniques\r\nare illustrated by an inverted pendulum system and a numerical example.
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