N Softwarization 1 Tb/s1 Gb/s 50that of 5G 1000that of 5G 1 Gb/s/m2 7 2ApplicationsMobile Web Mobile pay High-definition videos Voice Mobile TV[223,224,227,228]Network characteristics Peak BMS-8 Inhibitor information price Seasoned information price Spectrum efficiency Network power efficiency Location website traffic capacity Connectivity density Latency MobilityFlat All-IP[223,226,227]100 Mb/s 10 Mb/s 110.1 Mb/s/m[223,224,22832] [223,228,231] [223,229] [223,229] [223] [223,224,22830] [223,224,229,231,232] [223,229]10 Mb/s/m10 devices/km ten ms 350 km/h10 devices/km 1 ms 500 km/h10 devices/km 10001000 km/hAppl. Sci. 2021, 11,27 ofTable 7. Cont.Characteristics 4G 5G 6G ReferenceTechnologiesD2D communications OFDM Turbo code MIMO Hetnet Carrier aggregation ICIC Unlicensed spectrumSub-6 GHz (0.six.0 GHz)LDPC polar codes Versatile frame structure Enormous MIMO Ultradense networks NOMA SDN/NFV/network slicing Cloud/fog/edge computing Sub-6 GHz mm-wave for fixed access (3000 GHz)99.AI/machine finding out SM-MIMO Laser VLC LIS and HBF OAM multiplexing Blockchain-based spectrum sharing Methyl jasmonate Purity & Documentation Quantum communications computing Sub-6 GHz mm-wave for mobile access Exploration of higher frequency and THz bands (0.060 THz) Non-RF (e.g., VLC, optical, and so forth.)99.[223,225,226,229,231]Frequency bands[223,224,226,227,230, 231,233] [224,229,232]Reliability 99.IoT: Internet-of-Things; D2D: Device to device; ELPC: very low-power communications; AR: augmented reality; ERLLC: very trusted and low-latency communications; EDuRLLC:Event-defined uRLLC; uHSLLC: ultra-high-speed-with-low-latency communications; MBRLLC: mobile broadband reputable low latency communication; mURLLC: massive ultra-reliable, low latency communications; uMUB: ubiquitous mobile ultrabroadband; eMBB: enhanced mobile broadband; uHDD: ultrahigh information density; LDHMC: long-distance and high-mobility communications; FeMBB: further-enhanced mobile broadband; CAeC: Contextually agile eMBB communications; NFV: network function virtualization; mMTC: enormous machine-type communications; UHD: ultrahigh definition; SDN: software-defined networking; URLLC: ultra-reliable and low-latency communications; umMTC: ultra-massive machine-type communications; V2X: automobile to every thing; VR: virtual reality; AI: Artificial intelligence; LDPC: low-density parity-check codes; KPI: essential functionality indicator; ICIC: Inter-cell interference coordination; Hetnet: Heterogeneous network; mm-wave: Millimeter-wave; LIS: Massive intelligent surface; HBF: Holographic beamforming; OAM: Orbital angular momentum; VLC: Visible-light communications; OFDM: Orthogonal frequency-division multiplexing; NOMA: Non-orthogonal a number of access; MIMO: Multiple-input multiple-output; SM-MIMO: Supermassive MIMO.Table 8. Broadband technologies comparison.Technology Down-/Upstream Price a 24/3 Mbps Efficiency Range (km) a 5 Advantages Limitations ReferenceWired Broadband Technologies ADSL, ADSL2, ADSL2 VDSL, VDSL2, Vectoring HFC Employs current POTS Speedy installation Limited bandwidth Distance sensitive bandwidth Compact efficiency variety [16,19,234,235]100/40 Mbps 40/30 Mbps b1 200 c Employs current cable Tv network Speedy installation High bandwidth Employs existing power lines Limited bandwidth per-channel Shared bandwidth Really low upstream prices Cost-intensive Shared bandwidth Compact efficiency variety Interference difficulty Cost-intensive [16,19,234,235]BPL200/2 Mbps1[16,18,236]Fiber10/10 Gbps (much more)10Relatively limitless bandwidth High efficiency variety Less susceptible to interferenc.