This thesis deals with development of guidance laws for advanced applications. Two class of guidance problems, namely, impact angle constrained guidance and pulsed guidance for exo-atmospheric engagements, are considered here. Three impact angle constrained guidance schemes are developed using (i) Proportional navigation guidance (PNG), (ii) State Dependent Riccati Equation (SDRE) technique and (iii) geometric concepts, respectively. A collision course based pulsed guidance law is presented for exo-atmospheric interceptors. Proportional Navigation Guidance (PNG) law is the most widely used guidance law because of its ease of implementation and efficiency. However, in its original form, it achieves only a limited set of impact angles. A two...
Various unmanned missions deploy vehicles such as missiles, torpedoes, ground robots, and unmanned a...
Terminal impact angle control is crucial for enhancement of warhead effectiveness. In the literature...
To address the need for flexible energy management and impact angle control in the midcourse guidanc...
In the guidance literature, minimizing miss distance along with optimizing the energy usage had been...
This paper proposes an optimal impact angle control guidance law for homing missiles with a narrow f...
IN MANY advanced guidance applications, it is required to intercept the target from a particular dir...
Autonomous aerial vehicles like missiles and unmanned aerial vehicles (UAVs) have attracted various ...
Terminal impact angle constrained guidance laws using state-dependent Riccati equation approach Yao ...
A new, highly constrained guidance law is proposed against a maneuvering target while satisfying bot...
This brief introduces a new design methodology for impact angle control guidance (IACG) laws. The pr...
An optimal impact angle control guidance law is proposed in this paper.The missile system is approxi...
Impact angle constrained guidance laws are important in many applications such as guidance of torped...
A new generalized guidance law for collision courses is presented. When the missile and target axial...
This paper proposes a guidance strategy, which caters to both impact angle and impact time terminal ...
Impact angle controlled interception of stationary targets is considered in a surface-to-surface eng...
Various unmanned missions deploy vehicles such as missiles, torpedoes, ground robots, and unmanned a...
Terminal impact angle control is crucial for enhancement of warhead effectiveness. In the literature...
To address the need for flexible energy management and impact angle control in the midcourse guidanc...
In the guidance literature, minimizing miss distance along with optimizing the energy usage had been...
This paper proposes an optimal impact angle control guidance law for homing missiles with a narrow f...
IN MANY advanced guidance applications, it is required to intercept the target from a particular dir...
Autonomous aerial vehicles like missiles and unmanned aerial vehicles (UAVs) have attracted various ...
Terminal impact angle constrained guidance laws using state-dependent Riccati equation approach Yao ...
A new, highly constrained guidance law is proposed against a maneuvering target while satisfying bot...
This brief introduces a new design methodology for impact angle control guidance (IACG) laws. The pr...
An optimal impact angle control guidance law is proposed in this paper.The missile system is approxi...
Impact angle constrained guidance laws are important in many applications such as guidance of torped...
A new generalized guidance law for collision courses is presented. When the missile and target axial...
This paper proposes a guidance strategy, which caters to both impact angle and impact time terminal ...
Impact angle controlled interception of stationary targets is considered in a surface-to-surface eng...
Various unmanned missions deploy vehicles such as missiles, torpedoes, ground robots, and unmanned a...
Terminal impact angle control is crucial for enhancement of warhead effectiveness. In the literature...
To address the need for flexible energy management and impact angle control in the midcourse guidanc...