Free space path loss at 2.4 GHz for 1 km is ~100 dB – correct.

The textbook covers a wide range of topics in wireless communications, including:

Like any technical work, even the latest edition of this textbook has a list of known errata. The author maintains updates on his official NYU WIRELESS research center page. Before diving too deep, it's wise to download and review this errata to ensure you are working with the most correct information and to avoid confusion on misprinted equations or data. The official solution manual will also follow these corrections.

If you are currently studying or working on related subjects, I can help you with:

While full digital copies are often sought by students, access typically depends on your academic institution or authorized distribution:

Assuming comprehension because the written solution looks simple.

The practice of wireless communication involves the design, implementation, and optimization of wireless communication systems. Some of the key aspects of wireless communication practice include:

Problem C — MIMO capacity numeric:

The you are studying (e.g., path loss, modulation, trunking) The specific formula or variable giving you trouble

Trunking theory, Erlang B/C formulas, and grade of service (GoS) calculations.

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Breaking down complex path loss models (Log-normal shadowing, Okumura, Hata) and fading mechanisms.

To develop a technical paper based on the concepts in Wireless Communications: Principles and Practice