Degree Centrality

Supported Graph Characteristics

Unweighted edges

Directed edges

Undirected edges

Homogeneous vertex types

Heterogeneous vertex types

Algorithm link: Degree Centrality

Degree centrality is defined as the number of edges incident upon a vertex (i.e., the number of ties that a node has).

One major application of degree centrality is in cybersecurity, and more generally, network management.

The degree can be interpreted in terms of the immediate risk of a node for catching whatever is flowing through the network (such as a virus, or some information).

Specifications

CREATE QUERY tg_degree_cent(SET<STRING> v_type_set, SET<STRING> e_type_set,
  SET<STRING> reverse_e_type_set, BOOL in_degree = TRUE, BOOL out_degree = TRUE,
  INT top_k=100, BOOL print_results = True, STRING result_attribute = "",
  STRING file_path = "")

Parameters

Name Description Default value

SET<STRING> v_type_set

A set of vertex types.

(empty set of strings)

SET<STRING> e_type_set

A set of edge types.

(empty set of strings)

SET<STRING> reverse_e_type_set

A set of reverse edge types. If an edge is undirected, put the edge name in the set as well.

(empty set of strings)

BOOL in_degree

Boolean value that indicates whether to count the incoming edges as part of a vertex’s degree centrality.

True

BOOL out_degree

Boolean value that indicates whether to count the outgoing edges as part of a vertex’s degree centrality.

True

INT top_k

The number of vertices with the highest scores to return.

100

BOOL print_results

If true, print results to JSON output.

True

STRING result_attribute

If not empty, save the degree centrality score of each vertex to this attribute.

(empty string)

STRING file_path

If not empty, save results in CSV to this file.

(empty string)

Output

The vertices with the highest degree centrality scores along with their scores.

Time complexity

The algorithm has a time complexity of \(O(E)\), where \(E\) is the total number of edges in the graph.

Run commands

Schema-Free Query

RUN QUERY tg_degree_cent (<parameters>)

Packaged Template Query

CALL GDBMS_ALGO.centrality.degree_cent (<parameters>)

Example

Suppose we have the following graph:

social graph 2022 10

Running the query on the graph will show that Dan has the highest degree centrality:

  • Query

  • Result

RUN QUERY tg_degree_cent(["person"], ["friendship"],["friendship"])
[
  {
    "top_scores": [
      {
        "Vertex_ID": "Dan",
        "score": 4
      },
      {
        "Vertex_ID": "Jenny",
        "score": 3
      },
      {
        "Vertex_ID": "Nancy",
        "score": 3
      },
      {
        "Vertex_ID": "Vicki",
        "score": 3
      },
      {
        "Vertex_ID": "Jack",
        "score": 3
      },
      {
        "Vertex_ID": "Juan",
        "score": 2
      },
      {
        "Vertex_ID": "Emily",
        "score": 2
      },
      {
        "Vertex_ID": "Kevin",
        "score": 2
      },
      {
        "Vertex_ID": "Tom",
        "score": 2
      },
      {
        "Vertex_ID": "Denise",
        "score": 1
      },
      {
        "Vertex_ID": "Ben",
        "score": 1
      }
    ]
  }
]