Method and apparatus for traffic engineering on an optical transport network

The invention claimed is: 1. A method for traffic engineering on an optical transport network, OTN, comprising network elements implementing asymmetric OTN switches, said method comprising: (a) discovering by each network element of said network ODUk containers available on each of locally terminated traffic engineering, TE, links and identifying the switching limitations of the discovered ODUk containers with respect to how said ODUk containers are switchable onto the ODUk containers available on other locally terminated TE links; (b) identifying by said network element groups of ODUk containers available on a given TE link exhibiting identical switching limitations; (c) negotiating by said network element with its neighboring network elements properties of to be advertised child TE links each associated with a separate ODUk group; and (d) advertising by said network element for each identified group of ODUk containers a separate child TE link parallel to the original parent TE link, wherein each advertised child TE link indicates the total number of available ODUk containers within the respective ODUk group along with the identified switching limitations exhibited by the ODUk containers of said ODUk group and wherein the re-advertised parent TE link indicates the number of available ODUk containers reduced to account for the ODUk containers associated with the separately advertised child TE links. 2. The method according to claim 1 , wherein the child TE links and parent TE links are advertised using an instance of the OSPF-TE or the ISIS-TE protocol. 3. The method according to claim 1 , wherein the advertised TE data is stored in a TE database. 4. The method according to claim 3 , wherein a service path is computed on the basis of the TE data stored in the TE database. 5. The method according to claim 1 , wherein the ODUk containers identify atomic network resources of an ODU layer of said OTN network and the granularity at which bandwidth can be allocated for a given OTN service. 6. The method according to claim 1 , wherein the OTN network is controlled by a GMPLS control plane. 7. A network element of an OTN network having TE and data links connecting said network element to other network elements of said OTN network, said network element comprising: (a) a resource auto-discovering unit adapted to discover ODUk containers available on each of its TE links terminated by said network element and to identify switching limitations of the discovered ODUk containers; (b) a resource grouping unit adapted to identify groups of ODUk containers exhibiting identical switching limitations; (c) a link resource management unit adapted to negotiate with neighboring network elements properties of to be advertised child TE links terminated by said network element; and (d) an advertising unit adapted to advertise for each identified group of ODUk containers a separate child TE link parallel to the original parent TE link terminated by said network element, wherein each advertised child TE link indicates the total number of available ODUk containers within the respective ODUk group and the identified switching limitations exhibited by the ODUk containers of said ODUk group and wherein the re-advertised parent TE link indicates the number of available ODUk containers reduced to account for the ODUk containers associated with the separately advertised child TE links. 8. The network element according to claim 7 , wherein said ODUk containers are atomic network resources of an ODU layer of said OTN network, wherein said resources define the granularity at which bandwidth can be allocated for the services provided by said OTN network. 9. The network element according to claim 7 , wherein said OTN network is controlled by a GMPLS control plane. 10. The network element according to claim 7 , wherein said network element is adapted to implement at least one asymmetric OTN switch. 11. The network element according to claim 10 , wherein the OTN switch is connected to OTN multiplexers of said network element. 12. An optical transport network, OTN, comprising network elements implementing asymmetric OTN switches, wherein said network element comprises: (a) a resource auto-discovering unit adapted to discover ODUk containers available on each of its TE links terminated by said network element and to identify switching limitations of the discovered ODUk containers; (b) a resource grouping unit adapted to identify groups of ODUk containers exhibiting identical switching limitations; (c) a link resource management unit adapted to negotiate with neighboring network elements properties of to be advertised child TE links terminated by said network element; and (d) an advertising unit adapted to advertise for each identified group of ODUk containers a separate child TE link parallel to the original parent TE link terminated by said network element, wherein each advertised child TE link indicates the total number of available ODUk containers within the respective ODUk group and the identified switching limitations exhibited by the ODUk containers of said ODUk group and wherein the re-advertised parent TE link indicates the number of available ODUk containers reduced to account for the ODUk containers associated with the separately advertised child TE links. 13. The optical transport network, OTN, according to claim 12 , wherein said OTN network is controlled by a GMPLS control plane.