Enabling Integrated Operations. Tampnet 4G LTE Offshore Oct 021 st, 2014

Enabling Integrated Operations Tampnet 4G LTE Offshore Oct 021 st, 2014

Telecom Offshore 2014 21. Oktober - Kristiansand Anders Tysdal Technical Director, Tampnet AS at@tampnet.com

Quick Tampnet Update: Niche telecom carrier with core focus on the offshore Oil & Gas Industry 13 years experience in providing low latency offshore communications Established by Statoil in 2001, acquired by HitecVision August 2010 Tampnet acquired NSC from TeliaSonera in August 2011 Acquired by EQT in 2012 Acquired Airtap Inc (Lafayette, USA) and CNSFTC (Aberdeen, UK) in 2014 Providing high-capacity and low-latency infrastructure based on; Subsea fibre optic cable system Line-of-Sight solutions Wireless communication (WiMax, LTE/4G) for mobile units Aberdeen office opened in 2014

2500 km subsea fibre 75 offshore radio links Almost 200 offshore platforms served Number of Offshore Platforms Served by Tampnet 250 200 150 100 50 0 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 3

Magnus The Tampnet Infrastructure Scotland Aberdeen Claymore Tern North Cormorant Cormorant A Murchisson Eider Thistle Snorre Heather Ninian C Mariner Brent Bruce Gryphon Harding I Aasen Brae E Gudrun Brae B Gina Krog Brae A Piper B Sleipner Gullfaks C Gullfaks A Kvitebjørn N Alwyn Valemon Veslefrikk Troll A M Linge Brage Oseberg Bressay Beryl B Beryl A Alvheim Heimdal Jotun B Ringhorne Grane Edv Grieg Tartan Tiffany Scott Balmoral Andrew Varg Draupner Buchan Forties Unity Forties B Alba Britannia Everest Armada Forties C Kittiwake Nelson Montrose Lomond Ula Gannet Erskine ETAP Triton Shearwater Elgin/Franklin Gyda Kårstø Judy Ekofisk Jade Fulmar Clyde Valhall Kollsnes The North Sea Stavanger Lista Norway Esbjerg Oslo Denmark Copenhagen Janice Hejre Cygnus LEGEND: FIBRE OPTIC CABLES RADIO LINKS England LOGGS Viking Murdoch Germany NEW FIBRE CABLES Lowestoft Netherlands London Belgium France

Magnus 2015/16 Scotland Aberdeen Claymore Tern North Cormorant Cormorant A Murchisson Eider Thistle Snorre Heather Ninian C Mariner Brent Bruce Gryphon Harding I Aasen Brae E Gudrun Brae B Gina Krog Brae A Piper B Sleipner Gullfaks C Gullfaks A Kvitebjørn N Alwyn Valemon Veslefrikk Troll A M Linge Brage Oseberg Bressay Beryl B Beryl A Alvheim Heimdal Jotun B Ringhorne Grane Edv Grieg Tartan Tiffany Scott Balmoral Andrew Varg Draupner Buchan Forties Unity Forties B Alba Britannia Everest Armada Forties C Kittiwake Nelson Montrose Lomond Ula Gannet Erskine ETAP Triton Shearwater Elgin/Franklin Gyda Kårstø Judy Ekofisk Jade Fulmar Clyde Valhall Kollsnes The North Sea Stavanger Lista Norway Esbjerg Oslo Denmark Copenhagen Janice Hejre Cygnus LEGEND: FIBRE OPTIC CABLES RADIO LINKS England LOGGS Viking Murdoch Germany NEW FIBRE CABLES Lowestoft Netherlands London Belgium France

LTE Offshore

LTE Offshore Why LTE? Challenges Solution Coverage and Performance The Road Ahead

Why LTE Tampnet needed a technology that could deliver: High symmetrical bandwidth to mobile or moving rigs and vessels Low latency ( <40ms RTD) and low jitter Easy and inexpensive installation on user end High spectrum flexibility due to cross-border network Future proof technology due to long construction times/long life offshore We wanted a large ecosystem of users, vendors, support, solutions, hardware etc High security for client data

Why LTE Chart Title Range Speed Latency 0 2 4 6 8 10 12 LTE 3G 2G WiMax WiFi

Who uses LTE? 2014

A LARGE ECOSYSTEM

Challenges (and some solutions)

LTE Challenges Main Challenges Harsh Environment the most challenging one there is? Limited space and beds on vessels and platforms installation challenges ATEX and RF radiation issues Redundancy and rerouting, power loss on platforms, core network User Equipment Quality and Configuration Security of Data

Logged Heave on Gryphon during storm (8 Mbps continuous uplink/downlink on 900MHz/10MHz @ 21km from enodeb with 57m antenna height) 6 hour Test 9:20 15:20 99.999787% 12 hour Test 19:50 07:50

Pitch and Roll on User End

Flat Sea...less of an issue in LTE networks

RF Radiation Safe Distance calculations performed for all antennae ICNIRP and ITU recommendations used

ATEX and Safety Due diligence for ATEX zoning and installation environment performed before each install in cooperation with Platform Operator Assessment of Inadvertent Ignition of Flammable Athmospheres by RF radiation Calculations performed for all installation jobs

User Equipment Quality End user equipment does not have high enough quality yet (but getting there ) Tampnet is working with equipment vendors to improve quality and solve problems LTE consumers today are typically not industrial high end users but this will change!

LTE Solution

Magnus A ROBUST CORE NETWORK Scotland Aberdeen Claymore Tern North Cormorant Cormorant A Murchisson Eider Thistle Snorre Heather Ninian C Mariner Brent Bruce Gryphon Harding I Aasen Brae E Gudrun Brae B Gina Krog Brae A Piper B Sleipner Gullfaks C Gullfaks A Kvitebjørn N Alwyn Valemon Veslefrikk Troll A M Linge Brage Oseberg Bressay Beryl B Beryl A Alvheim Heimdal Jotun B Ringhorne Grane Edv Grieg Tartan Tiffany Scott Balmoral Andrew Varg Draupner Buchan Forties Unity Forties B Alba Britannia Everest Armada Forties C Kittiwake Nelson Montrose Lomond Ula Gannet Erskine ETAP Triton Shearwater Elgin/Franklin Gyda Kårstø Judy Ekofisk Jade Fulmar Clyde Valhall Kollsnes The North Sea Stavanger Lista Norway Esbjerg Oslo Denmark Copenhagen Janice Hejre Cygnus LEGEND: FIBRE OPTIC CABLES RADIO LINKS England LOGGS Viking Murdoch Germany NEW FIBRE CABLES Lowestoft Netherlands London Belgium France

Advanced Network Interconnection Options «Secure All the Way Home» Tampnet Trondheim South POP Tampnet Trondheim North POP Company Trondheim Office Tampnet Aberdeen North POP Tampnet Kollsnes POP Company Bergen Office Tampnet Oslo North POP Company Aberdeen Office 4G LTE Core #2 (Q2 2015) 4G LTE North Sea Offshore Infrastructure 4G LTE Core #1 Tampnet Kårstø POP Tampnet Stavanger North POP Company Oslo Office Tampnet Oslo South POP Tampnet Aberdeen South POP Tampnet Stavanger South POP Tampnet Lista Company Stavanger Office Tampnet London POP

Tampnet s Intensions with LTE As simple as possible - One uniform network covering all of the North Sea Norway, UK and Denmark (Netherlands) Same CPE and USIM will work on all base stations Monitored, dedicated, uncontended service with high availability A secure and reliable network for all interested parties Secure, dedicated and segregated traffic for each client Scalable layer 2 service Closed, dedicated Oil&Gas Service, enabling Layer 2 connectivity to shore from any asset Tailor made CPE solutions offshore specific Mobilility On-shore point of delivery tailored to customer needs Ethernet directly to client s address SOIL interconnect Internet (through a secure Layer 2 connection) Client IP/MPLS network interconnect (APN)

Build to robust and maintainable offshore spec ATEX Radiation Hazard Minimise cable loss Choose the right cables and connectors Choose the right antennae Careful design of power supply

Coverage and Performance

Speed and Range The range of an LTE base station depends mainly on frequency and antenna height Capacity decreases with range, but gain in uplink antennae may mitigate for some applications 40Mb Notes: Symmetrical bandwidth uplink/downlink 1800 MHz frequency band 20 MHz channel 20Mb 0 Mb 0 km 10km 20km 30km 40km 50km 60km 70km THE CURVATURE OF THE EARTH IS THE MAIN LIMITING RANGE FACTOR!

Speed (theoretical) vs bandwidth

Speed (theoretical) vs bandwidth

Coverage Tampnet performed a measurement campaign offshore, in order to test performance, and see how LTE functioned in our environment and for our use Successful campaign yielded good results (even better than expected) and gave us valuable input on propagation of LTE over sea. Conventional propagation models are useless offshore!

Gain over free space (db) Know your radio propagation theory Reducing antenna height from 40 to 30m gives 25dB gain! 10 Receiver antenna height gain over free space Placement of antennae is very important 5 0 0 5 10 15 20 25 30 35 40 45 50-5 Effects of reflections can yield «surprising» results -10-15 -20-25 -30 Antenna height (m) Curved Earth (including reflectance as a factor of incidence angle) Flat Earth (100% reflectance factor for surfaces and incidence angles)

Some examples from real connections Rigs and vessels online with Tampnet 4G LTE Name: Gryphon Name: Transocean Winner Name: Bibby Sapphire Name: Island Pride Name: West Linus Name: North Sea Producer Type: FPSO Type: Drilling Rig Type: Offshore Vessel Type: Offshore Vessel Type: Drilling Rig Type: FPSO Online: Aug 2013 Online: May 2014 Online: April 2013 Online: May 2014 Online: Equip installed. Currently offline Online: July 2014 Name: Sedco 704 Name: Maersk Resolve Name: Global Producer 3 Name: Well Enhancer Name: Floatel Superior Name: Maersk Giant Type: Drilling Rig Type: Drilling Rig Type: FPSO Type: Offshore Vessel Type: Accommodation unit Type: Drilling Rig Online: March 2014 Online: June 2014 Online: June 2013 Online: Sept 2013 Online: June 2014 Online: Aug 2014

Performance Gryphon Alpha

Gryphon 3 months Vendor Software bug in CPE

28km from enodeb

34km from enodeb Vendor Software bug in CPE

Pushing the limit (uplink..) 55km from enodeb in 1800MHz (Antenna height 58m)

The Road Ahead

What we know: Capacity demand WILL increase beyond our expectations ACCESS TO SPECTRUM IS KEY Users will demand always on - everywhere GOOD COVERAGE IS KEY Users will expect the same performance, security and reliability as from fibre or radio link solution BUILDING OFFSHORE INDUSTRY SPECIFIC LTE SOLUTION IS KEY

LTE Advanced is first step LTE Release 10, 11 and beyond will greatly increase the bandwith requires spectrum

Coverage before you know it...

Thank you for your attention! QUESTIONS? Contact: Trygve Hagevik th@tampnet.com Per Atle Sørensen pas@tampnet.com Anders Tysdal at@tampnet.com