2.7.8 What Limits The Speed Of A Communications System?
Explore the fundamental limits imposed by bandwidth and noise. Learn how the Nyquist Criterion and Shannon-Hartley Theorem define the maximum rates at which information can be transmitted reliably and why modern communications systems strive to approach these theoretical limits.
- What Determines the Maximum Data Rate of a Communications System?
- Why Does Bandwidth Limit Data Rate?
- What Is the Nyquist Criterion?
- Why Is the Nyquist Criterion Important?
- What Is Inter-Symbol Interference (ISI)?
- How Do Raised-Cosine Filters Reduce ISI?
- Does the Nyquist Criterion Determine the Maximum Data Rate?
- What Is the Shannon-Hartley Theorem?
- What Does Channel Capacity Mean?
- How Does Noise Limit Data Rate?
- What Is Signal-to-Noise Ratio (SNR)?
- Can Data Rate Be Increased Without Increasing Bandwidth?
- Can Data Rate Be Increased Without Increasing Power?
- Why Is Spectral Efficiency Important?
- How Close Can Modern Systems Get to the Shannon Limit?
- Do Fiber-Optic Systems Also Have Limits?
- Why Are These Limits Important?
