Home | Reports | Technical Documents | Tech-Blog | One-Shot Gallery | Korea ICT News | Korea Communication Market Data | List of Contributors | Become a Contributor |    
Section 5G 4G LTE C-RAN/Fronthaul Gigabit Internet IPTV/Video Streaming IoT SDN/NFV Wi-Fi KT SK Telecom LG U+ Network Protocol Samsung   Korean Vendors
Real World Private 5G Cases   4 Deployment Models On-Premise Cases 5G Core Control Plane Sharing Cases

5G Core Sharing Cases

Private 5G Deployment   • Private 5G Frequency Allocation Status in Korea  South Korean government's regulations on private 5G and KT's strategy for entering the market
Cases in Korea   Private 5G Operators |   SK Networks Service (SI) Sejong Telecom (Wire-line Carrier) KT MOS (Affiliate of KT) • Newgens (SI) • NAVER Cloud more >>  
    Enterprise DIY |   Korea Hydro & Nuclear Power (Power Plant) Korea Electric Power Corporation (Energy) • Republic of Korea Navy more >>
CHANNELS     HFR Private 5G Solution (my5G)       my5G Solution Components       my5G Key Features        my5G Resources        my5G News          
Mobile Network Architecture for 5G Era - New C-RAN Architecture and Distributed 5G Core
October 06, 2015 | By Dr. Harrison J. Son and Dr. Michelle M. Do (tech@netmanias.com)
Online viewer:
Comments (18)
SATISH BABU 2015-10-10 00:10:15

This is perfectly captured. So true. Though most of them know some one have not put it for publishing. It is nice that Netmanias have done it.

Netmanias 2015-10-15 13:12:10

Thank you for your feedback. We appreciated it. 

falam 2015-10-12 04:29:47

Very well written and excellent article highlighting the issue of back-haul explosion. MEC will surely free the backhaul from Operator's Intranet, but the 5th generation of traffic, which would be Internet of Many-Many-Things, would also mean that other parties need to run their applications on virtualised servers. For example, even if the Operator manages to terminate the 'Smart Power' traffic at RAN, it still needs to be routed to a remote server located in the grid's premises, unless the utility company decides to go cloud.


This boils down to a very fundamental question - what would motivate others to match the fast moving wireless evolution? For a utility company, it would bring efficiency in energy distribution, but does such incentive exists for all? Or, will the telco define a common cloud architecture to facilitate every partner’s application? Much to think and much more to be standardised in this fast developing space…..

Junaid (Huawei) via LinkedIn 2015-10-13 14:49:19

Good summary

Kosala (Vodafone) via LinkedIn 2015-10-13 16:39:33

Have to agree, well written article

Bhavin (Idea Cellular) via LinkedIn 2015-10-14 11:38:02

Fronthaul and backhaul explosions requirements for 5g makes current 4g just a small begining of a larger global connected world....

onlyashu19 2015-10-15 02:28:35

Very well explained , it's a delight to read such a document . I always love reading Netmania's stuff as these guys are so good in presenting and explaining the things and most importantly are doing a Great and good job of spreading knowledge with timely latest updates and in an authentic way.

Really Appreciate it !!

Netmanias 2015-10-15 13:11:16

Thank you for your compliment. We are glad you liked it. 

Mohammad (Syriatel) via LinkedIn 2015-10-15 13:05:57

Very Interesting and updated blog on 5G networks architecture. Thank you for sharing.

Abdallah (SOFCON) via LinkedIn 2015-10-15 13:07:19

Migration from current networks infrastructures to 5G needs to be carefully studied and detail the migration plans in taking into consideration minimization of major hardware replacement and impacting network serviceability.

dhurgudevishal@gmail.com 2015-10-15 13:35:30

Nice Article!!! Very Much informative for engineers who want to excell in Telecommunciation field!!!

Netmanias 2015-10-15 15:56:33

Thank you for your comment. Visit us again for more. 

Obinna (AT&T) via LinkedIn 2015-10-15 15:51:25

Nice ! Successfull commercial implementation hurdle will hinge on fronthaul and backhaul advancement and if the C-RAN is going to be distributed or centralized. Distributed C-RAN with NFV will be the way forward.

Castello 2015-10-16 06:06:24

Excellent article! This explosion will certainly be more critical in wide area countries like Brazil!

Thanks for sharing! 

Akash (Ericsson) via LinkedIn 2015-10-16 11:52:04

Really Most of my basic concepts cleared by Netmanias .. Thanks for that . Really wonderful content.

Brian Lavallee 2016-02-27 09:43:24

Great document indeed. Can you please show the calculations as to how you arrived at the following two statements? (1) "Each RRH has two antennas (2T2R) and has LTE channel bandwidth (BW) of 20MHz. So, the capacity of CPRI interface is 2.45Gbps.", and (2) "For example, if BW is 20MHz and an RRH has 16 antennas, then 19.66Gbps of CPRI capacity is required between BBU and the RRH."?



Chinmaya Samal 2016-03-29 21:53:03

Very good topic. Really helps.

Edmund 2016-09-25 18:04:03

Great job Netmanias!! The site to visit for Next-Gen mobile technology. Keep up the great work.

Thank you for visiting Netmanias! Please leave your comment if you have a question or suggestion.

[HFR Private 5G: my5G]


Details >>







Subscribe FREE >>

Currently, 55,000+ subscribed to Netmanias.

  • You can get Netmanias Newsletter

  • You can view all netmanias' contents

  • You can download all netmanias'

    contents in pdf file







View All (854)
4.5G (1) 5G (101) AI (7) AR (1) ARP (3) AT&T (1) Akamai (1) Authentication (5) BSS (1) Big Data (2) Billing (1) Blockchain (3) C-RAN/Fronthaul (18) CDN (4) CPRI (4) Carrier Ethernet (3) Charging (1) China (1) China Mobile (2) Cisco (1) Cloud (5) CoMP (6) Connected Car (4) DHCP (5) EDGE (1) Edge Computing (1) Ericsson (2) FTTH (6) GSLB (1) GiGAtopia (2) Gigabit Internet (19) Google (7) Google Global Cache (3) HLS (5) HSDPA (2) HTTP Adaptive Streaming (5) Handover (1) Huawei (1) IEEE 802.1 (1) IP Routing (7) IPTV (21) IoST (3) IoT (56) KT (43) Korea (20) Korea ICT Market (1) Korea ICT Service (13) Korea ICT Vendor (1) LG U+ (18) LSC (1) LTE (78) LTE-A (16) LTE-B (1) LTE-H (2) LTE-M (3) LTE-U (4) LoRa (7) MEC (4) MPLS (2) MPTCP (3) MWC 2015 (8) NB-IoT (6) Netflix (2) Network Protocol (21) Network Slice (1) Network Slicing (4) New Radio (9) Nokia (1) OSPF (2) OTT (3) PCRF (1) Platform (2) Private 5G (10) QoS (3) RCS (4) Roaming (1) SD-WAN (17) SDN/NFV (71) SIM (1) SK Broadband (2) SK Telecom (35) Samsung (5) Security (16) Self-Driving (1) Small Cell (2) Spectrum Sharing (2) Switching (6) TAU (2) UHD (5) VR (2) Video Streaming (12) VoLTE (8) VoWiFi (2) Wi-Fi (31) YouTube (6) blockchain (1) eICIC (1) eMBMS (1) iBeacon (1) security (1) telecoin (1) uCPE (2)
Password confirmation
Please enter your registered comment password.