A hash‐based distributed mapping control scheme in mobile locator‐identifier separation protocol networks

Gohar, Moneeb; Bashir, Faisal; Choi, Jin-Ghoo; Koh, Seok Joo; Ahmad, Waleed

doi:10.1002/nem.1961

Cited by 3 publications

(8 citation statements)

References 16 publications

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“…We compare the performances of the considered mobility control schemes, i.e., ILNP-Global, ILNP-Local and ILNP-Distributed, based on the equations in the previous section. For numerical results, we use the parameter values in Table 5, as in [15][16][17][19][20][21].…”

Section: Numerical Resultsmentioning

confidence: 99%

“…We consider the network model of Figure 9 to analyze the mobility control schemes. We first summarize the notations used for the analysis in Table 4 Wireless link failure probability Tq [15][16][17][19][20][21] Average queuing delay at each router…”

Section: Analysis Modelmentioning

confidence: 99%

“…We denote the transmission delay of a message with size S as T X−y (s) [15][16][17][19][20][21], where x and y are the sending and receiving nodes connected by a wireless link. We note that T X−y (s) can be written as…”

Section: Analysis Modelmentioning

confidence: 99%

“…Similarly, we let T X−y (S, H X−y ) [15][16][17][19][20][21] denote the transmission delay of a message with size S in the wired network, where x and y are the sending and receiving nodes connected by one or more wired links and H X−y denotes the hop count between x and y. It is straightforward to write…”

Section: Analysis Modelmentioning

confidence: 99%

“…For the ILNP-based networks, a mobility control scheme was proposed in [3,[6][7][8][9][10][11][12][13][14][15][16][17], where individual mobile hosts conduct the binding and query operations with the DDNS server. We call the mobility scheme "ILNP-Global" in this paper, since it depends on the centralized DDNS server for ID-LOC mappings.…”

Section: Introductionmentioning

confidence: 99%

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Distributed Identifier-Locator Mapping Management in Mobile ILNP Networks

Gohar

Choi

Ahmed³

et al. 2019

Electronics

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In the Identifier Locator Network Protocol (ILNP) networks, the existing mobility control schemes based on the centralized entity, called the Dynamic Domain Name Service (DDNS) server, such that all the control traffic is processed at the DDNS server. However, the centralized mobility schemes have significant limitations, such as control traffic overhead at the server and large handover delay. In order to resolve these issues, we propose a new mobility control scheme for ILNP networks, which manages the identifier-locators (ID-LOCs) in the fully distributed manner. In our scheme, each domain has a dedicated mobile DDNS (m-DDNS) server at the site border router (SBR). The m-DDNS server maintains two databases; i.e., home host register (HHR) and visiting host register (VHR), to support the roaming of mobile hosts. When a mobile host roams into a domain, the m-DDNS server in the visiting domain registers the host’s ID-LOC in the VHR and requests the update of HHR to the m-DDNS server in the home domain. Since the m-DDNS servers communicate each other directly, the ID-LOC mappings are managed without involvement of any central entities. We analyzed our proposed mobility scheme via numerical analysis and compared its performance with those of existing schemes. Numerical results showed that our scheme outperforms the existing mobility control schemes substantially in terms of control traffic overhead at the servers, total transmission delay and handover delay.

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Section: Numerical Resultsmentioning

confidence: 99%

Section: Analysis Modelmentioning

confidence: 99%

Section: Analysis Modelmentioning

confidence: 99%

Section: Analysis Modelmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Distributed Identifier-Locator Mapping Management in Mobile ILNP Networks

Gohar

Choi

Ahmed³

et al. 2019

Electronics

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A Secure Remote Mutual Authentication Scheme Based on Chaotic Map for Underwater Acoustic Networks

Zhang

Liu

2020

IEEE Access

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Underwater acoustic networks (UANs) have emerged as a new wireless sensor network structure widely used in many applications. Sensor nodes are usually placed in a hostile and unattended underwater environment to gather information with limited resource. Since the underwater information is sensitive and special, only authenticated users have rights to get the information. The existing secure resource-constrained authentication schemes are not inapplicable for underwater acoustic networks, so a lightweight authentication scheme is the primarily task in underwater acoustic networks. In this paper, we present a chaotic maps remote user authentication and key agreement scheme for underwater acoustic networks based on the DLP and DHP, in which only authenticated users have rights to obtain the information. The proposed scheme applies the lightweight cryptographic primitives, such as one-way hash function and chaotic maps to accomplish mutual authentication and key agreement for underwater acoustic networks. The security of the proposed scheme is certified by applying the BAN logic and Random Oracle Model. Security analysis shows that our proposed scheme is safe and can meet ten security requirements and seven security goals. Performance analysis shows that our proposed scheme is more efficient compared with other resource-constrained schemes.

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A Hierarchical Mapping System for Flat Identifier to Locator Resolution Based on Active Degree

Liu

Huo

2018

Future Internet

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Overloading of IP address semantics appeals for a new network architecture based on Identifier (ID)/Locator separation. The challenge of Identifier (ID)/Locator separation is how to solve the scalability and efficiency challenges of identity-to-location resolution. By analyzing the requirements of the Identifier (ID)/Locator separation protocol, this paper proposes a hierarchical mapping architecture on active-degree (HMAA). This HMAA was divided into three levels: active local level, neutral transfer level, and inert global level. Each mapping item is dynamically allocated to different levels to ensure minimizing delay according to its activity characteristics. The top layer CHORD is constructed by the Markov Decision Process, which can keep consistency between the physical topology and the logical topology. The simulation results on delay time show that HMAA can satisfy the scalability and efficiency requirements of an Identifier (ID)/Locator separation network.

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A hash‐based distributed mapping control scheme in mobile locator‐identifier separation protocol networks

Cited by 3 publications

References 16 publications

Distributed Identifier-Locator Mapping Management in Mobile ILNP Networks

Distributed Identifier-Locator Mapping Management in Mobile ILNP Networks

A Secure Remote Mutual Authentication Scheme Based on Chaotic Map for Underwater Acoustic Networks

A Hierarchical Mapping System for Flat Identifier to Locator Resolution Based on Active Degree

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