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Related Concept Videos

Passive Filters01:27

Passive Filters

608
Passive filters are utilized to shape the frequency spectrum of signals across a diverse array of applications. These filters, using only passive elements like resistors (R), inductors (L), and capacitors (C), are capable of selectively allowing or blocking certain frequency ranges without the need for external power sources.
Low-Pass Filters
Low-pass filters are designed to transmit signals with frequencies lower than the cutoff frequency, ωc, and attenuate those above it. The cutoff...
608
Active Filters01:25

Active Filters

931
Active filters are electronic circuits that use operational amplifiers (op-amps), resistors, and capacitors to filter out unwanted frequency components from a signal. A first-order low-pass active filter is designed to pass signals with a frequency lower than a certain cutoff frequency and attenuate frequencies higher than that cutoff frequency. The transfer function for a first-order low-pass active filter is:
931
Linear Approximation in Frequency Domain01:26

Linear Approximation in Frequency Domain

136
Linear systems are characterized by two main properties: superposition and homogeneity. Superposition allows the response to multiple inputs to be the sum of the responses to each individual input. Homogeneity ensures that scaling an input by a scalar results in the response being scaled by the same scalar.
In contrast, nonlinear systems do not inherently possess these properties. However, for small deviations around an operating point, a nonlinear system can often be approximated as linear....
136
Cascaded Op Amps01:16

Cascaded Op Amps

739
Operational amplifiers (op-amps) are versatile electronic components that can be interconnected in a cascade - one after another in a linear sequence. This cascading is possible due to their infinite input resistance and zero output resistance, allowing them to maintain their input-output relationships even when connected in series.
In a cascaded system, each op-amp is referred to as a stage. The output of one stage drives the input of the subsequent stage. As the input signal passes through...
739
Frequency Response of Op Amp Circuits01:20

Frequency Response of Op Amp Circuits

425
Operational amplifiers (op-amp) are used in signal conditioning, filtering, or for performing mathematical operations such as addition, subtraction, integration, and differentiation. The frequency response of an op-amp is an important aspect that describes how the gain of the amplifier varies with frequency.
Frequency Response and Gain:
The gain of the op-amp, A(ω), is not a constant but a function of the input signal frequency. An op-amp can maintain a constant gain at low frequencies,...
425
Op Amp AC Circuits01:18

Op Amp AC Circuits

277
Within an audio system, the filter circuit plays a pivotal role in processing the amplified audio signal from an amplifier. Its primary function is significantly attenuating signal components with lower frequencies, thereby shaping the audio output. This circuit's operations are examined, focusing on the fundamental filter configuration. This configuration involves an operational amplifier arranged in an inverting setup coupled with resistors (R1 and R2) and a capacitor (C1).
277

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Related Experiment Video

Updated: Sep 16, 2025

Design and Characterization Methodology for Efficient Wide Range Tunable MEMS Filters
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QP-Adaptive Dual-Path Residual Integrated Frequency Transformer for Data-Driven In-Loop Filter in VVC.

Cheng-Hsuan Yeh1, Chi-Ting Ni1, Kuan-Yu Huang1

  • 1Department of Computer Science and Information Engineering, National Cheng Kung University, Tainan 70101, Taiwan.

Sensors (Basel, Switzerland)
|July 12, 2025
PubMed
Summary
This summary is machine-generated.

DRIFT enhances Versatile Video Coding (VVC/H.266) by reducing compression artifacts adaptively. This novel network improves video quality for AI-enabled systems, especially in bandwidth-limited Multimedia Internet of Things (M-IoT) applications.

Keywords:
CNNH.266/VVCIoT video codingembedded AIin-loop filter

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Area of Science:

  • Artificial Intelligence
  • Computer Vision
  • Signal Processing

Background:

  • AI-enabled embedded systems require efficient video processing, making Versatile Video Coding (VVC/H.266) crucial for Multimedia Internet of Things (M-IoT).
  • VVC's block-based coding can cause compression artifacts, and existing Convolutional Neural Network (CNN) methods struggle with performance across different Quantization Parameters (QPs).

Purpose of the Study:

  • To propose DRIFT, a novel QP-adaptive in-loop filtering network designed to reduce compression artifacts in VVC.
  • To enhance video processing efficiency and quality for AI-enabled systems and M-IoT applications.

Main Methods:

  • DRIFT integrates a lightweight frequency fusion CNN (LFFCNN) for local enhancement and a Swin Transformer for global context.
  • LFFCNN utilizes octave convolution and a novel residual block (FFRB) incorporating multiscale extraction, QP adaptivity, frequency fusion, and attention mechanisms.
  • A Quantization Parameter Estimator (QPE) is introduced to prevent over-enhancement in inter-coded frames.

Main Results:

  • DRIFT achieved significant BD rate reductions: 6.56% for intra-coded frames and 4.83% for inter-coded frames.
  • The BasketballDrill sequence showed up to 10.90% performance gain.
  • LFFCNN reduced model size by 32% compared to prior methods while maintaining or improving coding performance.

Conclusions:

  • DRIFT effectively addresses VVC compression artifacts, offering robust performance across various QPs.
  • The proposed LFFCNN and QPE contribute to efficient and high-quality video processing for modern AI applications.
  • DRIFT represents a significant advancement in QP-adaptive filtering for VVC, outperforming existing solutions.