India Needs Smart Frontiers: An Assessment

In the era of Fourth Industrial Revolution, technology has transformed the ways of doing any business, including warfare. Thehuman element is slowly giving way to machines who would perform major functions including substituting and supplementing rankand file in the Military. Over 22,500 km of India’s frontiers are guarded by various Border Guarding Forces including the CoastGuards to prevent surprise incursions by the adversaries’ State, State-sponsored or Non- State Actors. The Border Guarding Forces act as eyes and ears of the frontiers and can take on basic defensive actions for which colossal manpower is used. For a Military threat, Regular Forces take over the responsibility for the Defense of the Nation. There is a case for optimizing manpower and increasing efficiency by bringing smart systems in delivering constant situational awareness and response solutions. This would also ensure that all stakeholders are networked in real-time. A combination of sensors, electronic and digital platforms, Data and Communication centers, using Terrestrial and Non-Terrestrial means, would build a ‘system of systems for Common Operational Picture at Strategic, Operational and Tactical levels. Data/intelligence analysis and automation would be possible if such systems are ubiquitous and part of the overall National security apparatus. The smart frontiers would soon be an inescapable necessity for the Defense of the nation

India Needs Smart Frontiers: An Assessment

In the era of Fourth Industrial Revolution, technology has transformed the ways of doing any business, including warfare. The human element is slowly giving way to machines who would perform major functions including substituting and supplementing rank and file in the Military. Over 22,500 km of India’s frontiers are guarded by various Border Guarding Forces including the Coast Guards to prevent surprise incursions by the adversaries’ State, State-sponsored or Non- State Actors. The Border Guarding Forces act as eyes and ears of the frontiers and can take on basic defensive actions for which colossal manpower is used. For a Military threat, Regular Forces take over the responsibility for the Defense of the Nation. There is a case for optimizing manpower and increasing efficiency by bringing smart systems in delivering constant situational awareness and response solutions. This would also ensure that all stakeholders are networked in real-time. A combination of sensors, electronic and digital platforms, Data and Communication centers, using Terrestrial and Non-Terrestrial means, would build a ‘system of systems for Common Operational Picture at Strategic, Operational and Tactical levels. Data/intelligence analysis and automation would be possible if such systems are ubiquitous and part of the overall National security apparatus. The smart frontiers would soon be an inescapable necessity for the Defense of the nation

Defensive system of ancient city Volubilis. State of research and new perspectives

This contribution presents the first results of two surveys (2014, 2016) in the vicinity of the ancient city of Volubilis, situated in the southern part of the Roman province Mauretania Tingitana. The main purpose was to assess the possibilities of non-invasive research of the forts established by the Romans as part of the defensive system of Volubilis and to investigate the character of the Roman defences on the southern border. Forts were connected with watchtowers which completed the system protecting the territory in question. Many interesting fragments of pottery have been found at those sites, which may confirm Roman presence in many, though not all points. Collected field information as well as the analysis of publications leads to the conclusion that the border defence arrangements at Volubilis might not be considered as a part of a centrally organised limes system, safe guarding the entire province, but as the defensive system of the city and its surroundings.This contribution presents the first results of two surveys (2014, 2016) in the vicinity of the ancient city of Volubilis, situated in the southern part of the Roman province Mauretania Tingitana. The main purpose was to assess the possibilities of non-invasive research of the forts established by the Romans as part of the defensive system of Volubilis and to investigate the character of the Roman defences on the southern border. Forts were connected with watchtowers which completed the system protecting the territory in question. Many interesting fragments of pottery have been found at those sites, which may confirm Roman presence in many, though not all points. Collected field information as well as the analysis of publications leads to the conclusion that the border defence arrangements at Volubilis might not be considered as a part of a centrally organised limes system, safe guarding the entire province, but as the defensive system of the city and its surroundings

On guarding real terrains: the terrain guarding and the blocking path problems

Locating a minimum number of guards on a terrain such that every point on the terrain is guarded by at least one of the guards is known as the Terrain Guarding Problem (TGP). In this paper, a realistic example of the terrain guarding problem is studied, involving the surveillance of a rugged geographical terrain by means of thermal cameras. A number of issues related to TGP are addressed with integer-programming models proposed to solve the problem. Also, a sensitivity analysis is carried out in which five fictitious terrains are created to see the effect of the resolution of the terrain, and of terrain characteristics, on coverage optimization and the required number of guards. Finally, a new problem, which is called the Blocking Path Problem (BPP), is introduced. BPP is about guarding a path on the terrain with a minimum number of guards such that the path blocks all possible infiltration routes. A discussion is provided about the relation of BPP to the Network Interdiction Problem (NIP), which has been studied extensively by the operations research community, and to the k-Barrier Coverage Problem, which has been studied under the Sensor Deployment Problem. BPP is solved via an integer-programming formulation based on a network paradigm

Terrain Prickliness: Theoretical Grounds for High Complexity Viewsheds

An important task in terrain analysis is computing viewsheds. A viewshed is the union of all the parts of the terrain that are visible from a given viewpoint or set of viewpoints. The complexity of a viewshed can vary significantly depending on the terrain topography and the viewpoint position. In this work we study a new topographic attribute, the prickliness, that measures the number of local maxima in a terrain from all possible angles of view. We show that the prickliness effectively captures the potential of terrains to have high complexity viewsheds. We present near-optimal algorithms to compute it for TIN terrains, and efficient approximate algorithms for raster DEMs. We validate the usefulness of the prickliness attribute with experiments in a large set of real terrains

A finite dominating set of cardinality O(k) and a witness set of cardinality O(n) for 1.5D terrain guarding problem

1.5 dimensional (1.5D) terrain is characterized by a piecewise linear curve. Locating minimum number of guards on the terrain (T) to cover/guard the whole terrain is known as 1.5D terrain guarding problem. Approximation algorithms and a polynomial-time approximation scheme have been presented for the problem. The problem has been shown to be NP-Hard. In the problem, the set of possible guard locations and the set of points to be guarded are uncountable. To solve the problem to optimality, a finite dominating set (FDS) of size O (n2) and a witness set of size O (n3) have been presented, where n is the number of vertices on T. We show that there exists an even smaller FDS of cardinality O (k) and a witness set of cardinality O(n), where k is the number of convex points. Convex points are vertices with the additional property that between any two convex points the piecewise linear curve representing the terrain is convex. Since it is always true that k≤ n for n≥ 2 and since it is possible to construct terrains such that n= 2 k, the existence of an FDS with cardinality O(k) and a witness set of cardinality of O (n) leads to the reduction of decision variables and constraints respectively in the zero-one integer programming formulation of the problem. © 2017, Springer Science+Business Media New York

The evolution of roman frontier defence systems and fortifications the lower danube provinces in the first and second centuries AD

The defence of the Roman Empire from barbarian attacks depended on two distinct but interrelated features: the actual fortifications on the borders of the imperial provinces and the troops that garrisoned them. The main aim of this dissertation is to provide a collective analysis of Roman defence systems on the Lower Danube region, i.e. the provinces of Pannonia Inferior, Moesia Superior, Moesia Inferior and Dacia. The period of study spans from the early first century to the middle of the second century AD, a period which corresponds to the gradual emergence and final consolidation of the Roman frontier defence systems in the area. On the basis of the physical evidence that has survived from the frontier fortifications of the Lower Danube area, this study attempts to present a reconstruction of the strategic and tactical situation on the frontier and to provide some fresh observations on the motives behind the creation, purpose and function of Roman frontiers during the early Principate. After a brief introduction on some of the views that have been put forward on the subject, the main part of the thesis is divided into four separate chapters, one for each of the provinces studied. These chapters study the fortifications themselves in order to establish their date and garrison so as to offer an evaluation of the characteristic features of the defensive system of each frontier sector. The last chapter brings together the above information in order to produce some conclusions on the defence systems in the area, especially in relation to the rationale behind their creation and subsequent development