DMR Integration
DMR Integration
Push-to-Talk over Cellular (PoC) Solutions from TalkPTT enable you
to interconnect DMR and cellular networks.
Push-to-talk over cellular (PoC) solutions first appeared on the
market over a decade ago following the release of the first set of
specifications drawn up by the Open Mobile Alliance (OMA) in June 2005. PoC had
some take up in North America using 2G and later 3G services, but made little
headway in Europe. All that has changed in the last two to three years thanks
to the roll out of commercial 4G LTE networks. 4G delivers the data speeds and
low latency to rival PMR systems, which has helped to transform PoC into a
seriously attractive proposition for many (although by no means all)
organisations, particular those for whom communications are not necessarily
business or mission critical.
PoC platform providers have emerged in North America and Europe
offering better Quality of Service (QoS), reliability, availability, security
and support for third party applications, than those available to normal mobile
phone consumer subscribers. What these PoC platforms offer is traditional PMR
type services, but over commercial 4G LTE cellular networks.
There are two main approaches to how PoC platforms offer their
service: static IPs and dedicated APNs into particular mobile networks, or
multi-network roaming SIMs. Let’s look at the dedicated APN option first.
Consumers access mobile network operator (MNO) services via public
APNs (Access Point Name) – the gateways between the subscriber’s mobile device
and the mobile network. Some PoC platforms offer a higher level of service by
using static (fixed) IPs and dedicated APNs to provide faster connections with
higher priority access to the network. The PoC platform then uses the MNO’s
QCIs (QoS Class Identifiers) and ARPs (Allocation Retention Priority) to
deliver dedicated data services to its customers on both the uplink and
downlink. In this way, some PoC platforms are able to guarantee faster and
better quality service than that available to ordinary consumer mobile phone
subscribers.
Generally, this also means the PoC platform sets up its own high
redundancy protected servers with dedicated links into the MNOs of whichever
country it is operating in. Each customer gets its own space on the server, SIM
numbers with individual IP addresses, service levels, device authentication
procedures, security solutions and policies.
If desired, a walled application garden with policies to determine
which subscribers can access which applications and under what circumstances
can also be provided. Services are hosted in the Cloud, but these can either be
privately hosted servers owned and operated by the PoC platform, or customer
premise hosted Cloud services, or public Cloud services such as those offered
by Amazon or Microsoft, for example. PoC platforms can then offer a tiered
service to business and organisations based on the desired level of
reliability, availability and security.
Let’s now turn to the second multi-network roaming option. The
basic option here is the customer buys the SIMs ‘unlocked’ and selects the MNO
they wish to operate on. The enhanced option involves using a multi-network
SIM, which will automatically switch between a country’s MNOs depending on the
strongest signal the phone finds. This option has the advantage of being able
to be extend to other countries via operator international roaming agreements .
The downside of this approach is that you cannot use dedicated
APNs, as the phone will be switching between networks. However, if you have
access to multiple networks you are less likely to encounter poor coverage
areas, so your chances of being hit by dropped calls or data sessions are
reduced. Some platforms also offer higher QoS SIMs where dedicated software is
installed on the phone enabling it to cycle faster through the networks to find
the best and least congested signal, connecting you more quickly.
The great benefit of PoC is that it provides fast PTT services and
the one-to-many group calling services found on PMR systems, but not on normal
mobile phone networks. Unlike PMR networks where channel capacity is finite,
PoC platforms allow any number of virtual channels and as many call groups as
you want to be created, including the ability to create dynamic call groups.
Dispatcher services can be enabled, including real-time GPS location, tracking
and monitoring services, along with other PMR type services such as late entry
to group calls and remote stun or kill of devices.
There are two main approaches to how PoC platforms offer their
service: static IPs and dedicated APNs into particular mobile networks, or
multi-network roaming SIMs. Let’s look at the dedicated APN option first.
Consumers access mobile network operator (MNO) services via public
APNs (Access Point Name) – the gateways between the subscriber’s mobile device
and the mobile network. Some PoC platforms offer a higher level of service by
using static (fixed) IPs and dedicated APNs to provide faster connections with
higher priority access to the network. The PoC platform then uses the MNO’s
QCIs (QoS Class Identifiers) and ARPs (Allocation Retention Priority) to
deliver dedicated data services to its customers on both the uplink and
downlink. In this way, some PoC platforms are able to guarantee faster and
better quality service than that available to ordinary consumer mobile phone
subscribers.
Generally, this also means the PoC platform sets up its own high
redundancy protected servers with dedicated links into the MNOs of whichever
country it is operating in. Each customer gets its own space on the server, SIM
numbers with individual IP addresses, service levels, device authentication procedures,
security solutions and policies.
If desired, a walled application garden with policies to determine
which subscribers can access which applications and under what circumstances
can also be provided. Services are hosted in the Cloud, but these can either be
privately hosted servers owned and operated by the PoC platform, or customer
premise hosted Cloud services, or public Cloud services such as those offered
by Amazon or Microsoft, for example. PoC platforms can then offer a tiered
service to business and organisations based on the desired level of
reliability, availability and security.
Let’s now turn to the second multi-network roaming option. The
basic option here is the customer buys the SIMs ‘unlocked’ and selects the MNO
they wish to operate on. The enhanced option involves using a multi-network
SIM, which will automatically switch between a country’s MNOs depending on the
strongest signal the phone finds. This option has the advantage of being able
to be extend to other countries via operator international roaming agreements .
The downside of this approach is that you cannot use dedicated
APNs, as the phone will be switching between networks. However, if you have
access to multiple networks you are less likely to encounter poor coverage
areas, so your chances of being hit by dropped calls or data sessions are
reduced. Some platforms also offer higher QoS SIMs where dedicated software is
installed on the phone enabling it to cycle faster through the networks to find
the best and least congested signal, connecting you more quickly.
The great benefit of PoC is that it provides fast PTT services and
the one-to-many group calling services found on PMR systems, but not on normal
mobile phone networks. Unlike PMR networks where channel capacity is finite,
PoC platforms allow any number of virtual channels and as many call groups as
you want to be created, including the ability to create dynamic call groups.
Dispatcher services can be enabled, including real-time GPS location, tracking
and monitoring services, along with other PMR type services such as late entry
to group calls and remote stun or kill of devices.