User:Wellcreek/sandbox

Public Safety LTE (PS-LTE) is a technology for next-generation public safety communication system based on Long Term Evolution (LTE). Since 2013, LTE is considered as the "de facto" standard for the next generation mission critical mobile broadband communication. Public safety LTE device shipments over commercial networks is expected to account for nearly $7 Billion in annual revenue by the end of 2020.^[1]

Standardization work in 3GPP started since Release 12. Mission Critical Push-to-Talk (MCPTT) is specified in Release 13. Two additional applications (Mission Critial Video (MCVideo) and Mission Critical Data (MCData)) are currently in progress under Release 14, and is expected to be completed in 2016.

Wireless communication for public safety services, such as police and fire department, has been based on systems such as Terrestrial Trunked Radio (TETRA) and P25. There are also communication systems being used for specific commercial communications such as rail road (GSM-R). They are widely deployed in many countries' government agencies and other organizations, but they are bespoke systems specifically designed and implemented for public safety (and other related) usages only. These systems provide predominantly voice communication with limited data capability and limited interoperability across different systems and products.^[2]

On the other hand, wireless cellular communication systems have been developed for consumer users. Over the years, its technology has evolved from 1G (FDM-based system such as AMPS and TACS), 2G (TDM-based system such as GSM), 3G (mainly CDMA-based system such as UMTS and CDMA-2000), to 4G (OFDMA-based system such as LTE and LTE Advanced). Deployment plans for the future 5G system have been announced by various mobile operators toward 2020. As a result of this evolution, cellular system has transformed from voice-only communication to content-rich high-speed broadband service. Proliferation of smartphone and tablet in recent years has accelerated increase of data traffic in the cellular system. In the past years, the volume of data traffic has surpassed that of voice traffic, and is expected to grow even more.^[3]

Public safety communities also need their communication systems to evolve and take full advantage of new technologies and capabilities such as high resolution video and real-time data communication in their operation.

However, their existing systems such as TETRA and P25 are slow to evolve and expensive to implement due to its nature of bespoke systems. On the other hand, commercial cellular technologies have well-developed eco-system ranging from chip vendor companies to system integrator companies. Such eco-system fosters competition in the market, rapid adaption of new technologies. From service deployment perspective, it means lower price, more vendor choices, and shorter time to market of newer technologies with less amount of up-front investment in order to build up the system.

Due to its commercial success of LTE in world-wide level, public safety communities have decided to adopt LTE as their technology of choice for their next generation public safety system.

In recent years, multiple organizations in different countries have announced their plan to deploy the next generation public safety system based on PS-LTE. Effectively they have declared that PS-LTE is their 'technology of choice'.^[4][5]

Some of the representative cases are discussed below.

US Congress has created First Responder Network Authority (FirstNet) in 2012 to mandate the implementation of the nationwide public safety broadband network, and allocated $7 billion as the construction fund.^[6] They have announced that this new system will be based on LTE technology.^[4] The FCC has allocated 700MHz D block spectrum to FirstNet.^[2]

• National Telecommunications and Information Administration (NTIA)
• National Public Safety Telecommunications Council (NPSTC)
• Tetra + Critical Communications Association (TCCA)
• Association of Public-Safety Communications Officials-International (APCO)
• International Union of Railways (UIC)

UK Home Office established Emergency Services Mobile Communications Programme (ESMCP) in 2011. Their goal is to provide a new mobile communications capability to the three Emergency Services (3ES) - police, fire and rescue, and ambulance - of Great Britain using LTE technology.^[7] They plan for a dedicated Emergency Services Network (ESN) which would “provide the next generation integrated critical voice and broadband data services for the 3ES (police, fire and rescue, and ambulance).”

The police of the Netherlands

Tragic incident of Sewol raised the awareness in South Korean government to improve their public safety system.^[8] South Korean government has decided to allocate $1.2 billion as construction fund. In 2014, South Korean government adopted plans to build a broadband network dedicated to public safety using the LTE technology to be deployed nationwide by 2017.^[5]

Canada, Brazil, Israel, Qatar have expressed intent to build the next generation public safety network based on LTE technology.

UK government has selected Everything Everywhere (EE) to deploy public safety network in the UK.^[9]

South Korean government selected two mobile operators (KT and SK Telecom) for its public safety LTE pilot in three areas of the country.^[10]

Three types of applications (i.e. usages) of PS-LTE is defined in 3GPP:

• Mission Critical Push-to-Talk (MCPTT)
• Mission Critical Video (MCVideo)
• Mission Critical Data (MCData)

LTE technology, or cellular mobile communication in general, has been developed for consumer usage. There are inherently different technical usages in public safety usage. In particular, the concept of 'mission critical' voice service includes the following aspects:^[2]

• Direct or Talk Around
• Push-to-Talk (PTT)
• Full duplex voice
• Group call
• Talker identification
• Emergency alerting
• Audio quality

In order to support public safety communication based on LTE technology, the following areas are addressed.

Standardization work on PS-LTE started in Rel.12. Work has been decomposed into several different areas.

SC-PTM

ProSe

IOPS

Spec #	Spec name	WG	Release introduced	Description
TS 22.179	Mission Critical Push to Talk (MCPTT) over LTE; Stage 1	SA1	Rel.13	Stage 1 requirement
TS 23.179	Functional architecture and information flows to support mission critical communication	SA6	Rel.13	Stage 2 architecture
TR 23.779	Study on application architecture to support Mission Critical Push To Talk over LTE (MCPTT) services	SA6	Rel.13	Study of stage 2 architecture
TS 24.379	Mission Critical Push To Talk (MCPTT) call control Protocol specification	CT1	Rel.13	Stage 3 call control protocol
TS 24.380	Mission Critical Push To Talk (MCPTT) media control Protocol specification	CT1	Rel.13	Stage 3 media control protocol
TS 24.381	Mission Critical Push To Talk (MCPTT) group management Protocol specification	CT1	Rel.13	Stage 3 group management protocol
TS 24.382	Mission Critical Push To Talk (MCPTT) identity management Protocol specification	CT1	Rel.13	Stage 3 identity management protocol
TS 24.383	Mission Critical Push To Talk (MCPTT) Management Object (MO)	CT1	Rel.13	Stage 3 management object
TS 24.384	Mission Critical Push To Talk (MCPTT) configuration management Protocol specification	CT1	Rel.13	Stage 3 config management protocol
TR 24.980	Recommended Minimum Requirements for support of MCPTT Service over the Gm reference point	CT1	Rel.13	Stage 3 Gm interface
TS 26.179	Mission Critical Push To Talk; Codecs and media handling	SA4	Rel.13	Stage 3 codec and media handling
TR 26.879	Mission Critical Push To Talk; Media, codecs and MBMS enhancements for Mission Critical Push to Talk over LTE	SA4	Rel.13	Study of codec and media handling
TS 33.179	Security of Mission Critical Push To Talk over LTE	SA3	Rel.13	Security of MCPTT
TS 33.879	Study on Security Enhancements for Mission Critical Push To Talk (MCPTT) over LTE	SA3	Rel.13	Study of security of MCPTT

Spec #	Spec name	WG	Release introduced	Description
TR 22.281	Mission Critical Video Services over LTE	SA1	Rel.14	Stage 1 requirement
TR 22.879	Study on Mission Critical Video Services over LTE	SA1	Rel.14	Study of stage 1 requirement

Spec #	Spec name	WG	Release introduced	Description
TR 22.282	Mission Critical Data Communications	SA1	Rel.14	Stage 1 requirement
TR 22.880	Study on Mission Critical Data Communications	SA1	Rel.14	Study of stage 1 requirement

Spec #	Spec name	WG	Release introduced	Description
TR 22.280	Mission Critical Service Common requirement	SA1	Rel.14	Stage 1 requirement

Spec #	Spec name	WG	Release introduced	Description
TR 22.803	Feasibility study for Proximity Services (ProSe)	SA1	Rel.12	Study of stage 1 requirement
TS 23.303	Proximity-based services (ProSe); Stage 2	SA2	Rel.12	stage 2 architecture
TR 23.703	Study on architecture enhancements to support Proximity-based Services (ProSe)	SA2	Rel.12	study of stage 2 architecture
TS 23.713	Study on extended architecture support for proximity-based services	SA2	Rel.13	study of stage 2 architecture
TS 24.333	Proximity-services (ProSe) Management Objects (MO)	CT1	Rel.12	Stage 3 UE management object
TS 24.334	Proximity-services (ProSe) User Equipment (UE) to ProSe function protocol aspects; Stage 3	CT1	Rel.12	Stage 3 protocol
TS 29.343	Proximity-services (ProSe) function to ProSe application server aspects (PC2); Stage 3	CT3	Rel.12	Stage 3 PC2 interface
TS 29.344	Proximity-services (ProSe) function to Home Subscriber Server (HSS) aspects; Stage 3	CT4	Rel.12	Stage 3 HSS function
TS 29.345	Inter-Proximity-services (Prose) function signalling aspects; Stage 3	CT4	Rel.12	Stage 3 inter ProSe signalling
TS 33.303	Proximity-based Services (ProSe); Security aspects	SA3	Rel.12	ProSe security aspect
TS 33.833	Study on security issues to support Proximity Services	SA3	Rel.12	Study of ProSe security aspect
TS 36.211	E-UTRA Physical channels and modulation	RAN1	Rel.12	Sec.9 sidelink operation
TS 36.212	E-UTRA Multiplexing and channel coding	RAN1	Rel.12	Sec.4, 5.4
TS 36.213	E-UTRA Physical layer procedures	RAN1	Rel.12	Sec.14
TS 36.214	E-UTRA Physical layer measurements	RAN1	Rel.12	Sec.5.2.21, 22
TR 36.843	Study on LTE device to device proximity services; Radio aspects	RAN1	Rel.12	Study on ProSe radio aspects
TR 36.877	LTE Device to Device Proximity Services; User Equipment (UE) radio transmission and reception	RAN4	Rel.12	UE radio performance

Spec #	Spec name	WG	Release introduced	Description
TS 22.468	Group Communication System Enablers for LTE (GCSE_LTE)	SA1	Rel.12	Stage 1 requirement
TS 23.468	Group Communication System Enablers for LTE (GCSE_LTE); Stage 2	SA2	Rel.12	Stage 2 architecture
TR 23.768	Study on architecture enhancements to support Group Communication System Enablers for LTE (GCSE_LTE)	SA2	Rel.12	Study of stage 2 architecture
TR 29.468	Group Communication System Enablers for LTE (GCSE_LTE); MB2 reference point; Stage 3	CT3	Rel.12	Stage 3, MB2 interface
TR 33.888	Study on security issues to support Group Communication System Enablers (GCSE) for LTE	SA3	Rel.12	Study of GCSE security aspect
TR 36.868	Evolved Universal Terrestrial Radio Access (E-UTRA); Study on group communication for E-UTRA	RAN2	Rel.12	Study of GCSE

Spec #	Spec name	WG	Release introduced	Description
TS 22.346	Isolated Evolved Universal Terrestrial Radio Access Network (E-UTRAN) operation for public safety; Stage 1	SA1	Rel.13	Stage 1 requirement
TS 22.897	Study on isolated Evolved Universal Terrestrial Radio Access Network (E-UTRAN) operation for public safety	SA1	Rel.13	Study of stage 1 requirement
TS 23.401	General Packet Radio Service (GPRS) enhancements for Evolved Universal Terrestrial Radio Access Network (E-UTRAN) access	SA2	Rel.13	Annex K "Isolated E-UTRAN Operation for Public Safety"
TR 23.797	Study on architecture enhancements to support isolated Evolved Universal Terrestrial Radio Access Network (E-UTRAN) operation for public safety	SA2	Rel.13	Study of IOPS
TR 33.897	Study on isolated E-UTRAN operation for public safety; Security aspects	SA3	Rel.13	Study of security aspect of IOPS

Spec #	Spec name	WG	Release introduced	Description
TR 36.837	Public safety broadband high power User Equipment (UE) for band 14	RAN4	Rel.11	Study of high power UE

• License Exempt (LTE-U/LAA)
• NetNet & SON

• 5G

• 3GPP
• 3GPP Public Safety
• US FirstNet
• UK ESMCP