Add to ORKGIn Transparent optical networks (TONs), the data signals remain in the optical domain for the entire transmission path. The capability of handling high data rates and features like transparency makes TONs susceptible to several physical layer attacks. Hence, designing TONs with a capability of handling such high power jamming attacks is an important network security problem. In this work, we propose an integer linear program (ILP) formulation to control the propagation of these physical layer attacks in TONs, for the demands which need periodic bandwidth usage at certain predefined timings. There are two different approaches for handling these scheduled traffic demands, fixed window and sliding window. Our research deals with the sliding wi...
In this chapter, novel atack‐aware routing and wavelength assignment (Aa‐RWA) algo‐ rithms for multi...
Optical networks are vulnerable to a range of attacks targeting service disruption at the physical l...
In transparent optical networks with no regeneration, the problem of capacity allocation to traffic ...
Transparent Optical Networks (TONs) can communicate large amount of data at a high speed among nodes...
Security and attack management have become the prime concern for the network operators due to high d...
In Transparent Optical Networks, tra c is carried over lightpaths, creating a vir- tual topology ove...
The transparency feature of All Optical Wavelength Division Multiplexing (WDM) Networks makes it an ...
This work presents joint optimization algorithms for lightpath establishment as well as sparse place...
Recent studies show that deliberate malicious attacks performed by high-power sig- nals can put larg...
Today’s Transparent Optical Networks (TONs) are highly vulnerable to various physical-layer attacks,...
This work considers lightpath provisioning in elastic optical networks with traffic demand variation...
In this chapter, novel attack‐aware routing and wavelength assignment (Aa‐RWA) algorithms for multip...
Recent research has clearly established that holding-time-aware routing and wavelength assignment (R...
This work presents optimization algorithms on attack-aware routing and spectrum allocation (Aa-RSA) ...
In transparent optical networks (TONs), all-optical channels, called lightpaths, are established bet...
In this chapter, novel atack‐aware routing and wavelength assignment (Aa‐RWA) algo‐ rithms for multi...
Optical networks are vulnerable to a range of attacks targeting service disruption at the physical l...
In transparent optical networks with no regeneration, the problem of capacity allocation to traffic ...
Transparent Optical Networks (TONs) can communicate large amount of data at a high speed among nodes...
Security and attack management have become the prime concern for the network operators due to high d...
In Transparent Optical Networks, tra c is carried over lightpaths, creating a vir- tual topology ove...
The transparency feature of All Optical Wavelength Division Multiplexing (WDM) Networks makes it an ...
This work presents joint optimization algorithms for lightpath establishment as well as sparse place...
Recent studies show that deliberate malicious attacks performed by high-power sig- nals can put larg...
Today’s Transparent Optical Networks (TONs) are highly vulnerable to various physical-layer attacks,...
This work considers lightpath provisioning in elastic optical networks with traffic demand variation...
In this chapter, novel attack‐aware routing and wavelength assignment (Aa‐RWA) algorithms for multip...
Recent research has clearly established that holding-time-aware routing and wavelength assignment (R...
This work presents optimization algorithms on attack-aware routing and spectrum allocation (Aa-RSA) ...
In transparent optical networks (TONs), all-optical channels, called lightpaths, are established bet...
In this chapter, novel atack‐aware routing and wavelength assignment (Aa‐RWA) algo‐ rithms for multi...
Optical networks are vulnerable to a range of attacks targeting service disruption at the physical l...
In transparent optical networks with no regeneration, the problem of capacity allocation to traffic ...