Synchromodality: Future of nodes
Manuel Fco MartínezCTO Port of Huelva – Oct 18
Transport network
Global interconnected world: How will progress?
Transport network
The standardization of the transport (containerization,palletization) becomes the transport in a packetnetworkCargo is sent in a standard format
-> Container / Pallets / ISO /…
The most evolved packetnetwork that exist is theTELECOM NETWORK
Can it be used as ananalogy?
Telecom Evolution
Dedicate Lines
Telecom Evolution
Dedicate Lines
Dedicate Packet Network
Telecom Evolution
Public Packet Network …but only information
Telecom Evolution
Public Packet Network …but only information
World of service sharing a network
- Phone: point to pointconnection and direct transport ofinformation.
- First Packet Network (X.25) ->Guaranteed Packet. Reliable andordered
- Packet Network oriented toservice (ATM) -> Fixed Packet size-> Different QoS
- Flexible packet network (IP) ->Variable packet size. Lots ofservices. Unordered sequence ofpackets.
TELECOM EVOLUTION TRANSPORT EVOLUTION
?
- Dedicate Vessel: 100% of theresource is dedicate, despite be fullor not
- Containers. Pre-stablished routeand guaranteed the transport 1 by1. There is no QoS
- Containers. Pre-stablished routeand guaranteed 1 by 1, but followingand managing by QoS
- Total Flexibility. Container don’tknow the route. In any node, theroute is selected: Physical Internet
Why evolved?SAVING COSTS (lines, nodes) AND INCREASE SERVICES
Telecom Evolution
LINES AND NODES
Lines: information means of transport
Nodes: Place that receive the information and decide the next step
TELECOM LINES / NODES EVOLUTION:
1) Low capacity lines. Exist queues and congestion. Priority is a key factor, because time-sensible services will fail if the priority is not used. NODES: MUST process the information
2) High capacity lines: The capacity is as high that it is impossible to fill it. There is not congestion. The priority is not important, because there is enough resources for any services. Nodes lose intelligent.
Progressive evolution:
1. Increase capacity in troncalnetwork
2. FTTH
Telecom Evolution
Core Network: Megavesselsand TEN-T Core Network
Access Network: feeders / TEN-T Comprehensive Network
Last Mile: connection to the customer
Nodes: terminals / Ports Logistic Zones
Telecom Analogy
Lines: Means of transport: vessels / trucks / train / …
Core Network: Megavesselsand TEN-T Core Network
Access Network: feeders / TEN-T Comprehensive Network
Last Mile: connection to the customer
Nodes: terminals / Ports Logistic Zones
Telecom Analogy
Synchromodality
Giving the intelligence to the transport.
Intelligence block:Management of any packet, analysis and decisions.Cargo Analysis and definition of it optimum route. Even mixing.
E/S Block:Connection to any mediumPort /Train /Trucks Terminals
Monitoring block: Tracking
There blocks are interconnected by internal links: BUSES, designed to avoid congestion in them.Port Internal services
Nodes Analysis / Port Analysis
Future
Physical Internet: Following the evolution of telecom in transport.
1. Logistics have to change the vision to the service to final customer.
2. PORTS should be intelligent (ROUTERS), that allow to manage the cargo optimizing the flow to increase the customer experience
1. Divide the monitoring block (Customs / PCS / PMS) / the management block (logistic area) and the interfaces (Terminals).
2. Link the internal blocks with enough capacity to avoid congestion
3. Transport networks have to be synchronized to used all the possibilities of the intelligence: synchromodality
4. Alternative routes allow the compliment of customer experience: - some need more velocity (paying more) - other NEED less velocity (and cheaper)- And solve problems!
Conclusions
Thank you