Anti-jamming for satellite links: Which technique is generally the most effective against intentional jamming?
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AFrequency hopping only
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BSpread-spectrum modulation (including DSSS/FHSS)
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CKey leverage
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DOnce-only key
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ENarrowband pre-emphasis
Answer
Correct Answer: Spread-spectrum modulation (including DSSS/FHSS)
Explanation
Introduction / Context:Jamming aims to raise the noise/interference floor at the receiver. Spread-spectrum techniques mitigate this by processing gain and spectral spreading, lowering the apparent interference density at the demodulator.
Given Data / Assumptions:
- Adversary can inject narrowband or partial-band interference.
- System supports spread-spectrum waveforms (DSSS or FHSS).
- Receiver implements despreading to realize processing gain.
Concept / Approach:
Spread-spectrum distributes signal power over a wider bandwidth; after despreading, the wanted signal is compressed while the jammer remains spread, yielding processing gain that improves effective SIR. Frequency hopping further avoids sustained occupancy by a jammer.
Step-by-Step Solution:
Adopt DSSS/FHSS so the signal bandwidth >> jammer bandwidth.At the receiver, correlate/despread to recover energy into a narrowband.Result: significant anti-jam margin relative to non-spread alternatives.Verification / Alternative check:
Link budget analyses show processing gain = spread bandwidth / information bandwidth; even tens of dB are possible.
Why Other Options Are Wrong:
- Frequency hopping alone helps, but “spread-spectrum modulation” encompasses the broader, stronger anti-jam framework.
- “Key leverage” and “once-only key” are not standard anti-jam terms.
- Narrowband pre-emphasis does not counter broadband or swept jammers.
Common Pitfalls:
- Overlooking synchronization and key management needed for secure FH/DSSS.
Final Answer:
Spread-spectrum modulation (including DSSS/FHSS)