Unattended laser target designator (ULTD) was designed to partly take the place of conventional LTDs for accurate positioning and laser marking. Analyzed the precision, accuracy and errors of acoustic sensor array, the requirements of laser generator, and the technology of image analysis and tracking, the major system modules were determined. The targets classification, velocity and position can be measured by sensors, and then coded laser beam will be emitted intelligently to mark the excellent position at the excellent time. The conclusion shows that, ULTD can not only avoid security threats, be deployed massively, and accomplish battle damage assessment (BDA), but also be fit for information-based warfare. Keywords: information process, unattended ground sensor , laser target designato r, accurate positioning 1. INTRODUCTION Nowadays semi-active laser (SAL) guided munitions are of prime importance to accomplish precision strike pinpoint targets, the man-in-the-loop mode is very useful to achieve target recognition, intelligent control, and battle damage assessment (BDA). For SAL guided munitions, the laser target designator (LTD) is absolutely necessary. The munitions have an internal semi-active guidance system that detects laser energy and guides the weapon to the target illuminated by an external LTD. Before the munition exploded, about 10 s econds, LTD radiate a narrow beam of pulsed energy in the infrared wavelength spectrum, that are semi-active illuminators used to tag the desired spot. These can be aimed such that laser energy precisely designates the chosen spot on the target. LTDs can be located in the delivery aircraft, another aircraft or on a ground source. But the obvious shortcoming of this battle mode is LTDs must be carried by platforms which are controlled by soldiers, that means we have to invade opponent fire range to mark our targets and to face to titanic threats all the time. So, a novel unattended laser target designator (ULTD) was design ed to solve this problem partly; and we trust it is fit in with the foreseeable future information-based warfare. The previous work includes argumentation, system design, modular design and application analysis , they will be discussed as follows. 1.1 Existing threats With the development of components and parts, integrated circuit, new approaches and correlation techniques, precision strike weapons were improving rapidly in the past years. On one hand, it is an available method to damage pinpoint targets, hard targets and armored targets effectively; on the other hand, minimum collateral damage must be considered in earnest, especially in urban warfare, anti-terrorist war and asymmetric warfare situations, which may be the major patterns of battle in the future. The conventional guided munitions always cause serious additional damage to ordinary people. From the several anti-terrorist wars, underground cave s, buildings in urban and moving vehicles were becoming the major targets; actually most of which were destroyed by precision guided munitions. At the same time, the opponents use a variety of means to protect high-value targets, including full spectrum obstruction, decoy target, underground command center, armored layer, etc. To follow the two factors mentioned before, the circular error probable (CEP) of modern precision munitions are requested to be 3m or lower, SAL guidance and combined guidance based on it will be the suitable selection. Normally, the effective range of portable LTDs is 3km~5km, and the airborne is more than 10km for tanks. For this reason, most of the munitions can not be launched safely; th e carriers and LTD operators must notice the counterattack.